More Related Content
Similar to Clock Controlled Unipolar Stepping Motor Driver TB67S149FTG (Device Modeling Report) (20)
More from Tsuyoshi Horigome (20)
Clock Controlled Unipolar Stepping Motor Driver TB67S149FTG (Device Modeling Report)
- 1. Siam Bee Technologies Co.,Ltd.
http://www.marutsu.co.jp/pc/i/593537/
Clock Controlled Unipolar Stepping
Motor Driver
TB67S149FTG (Device Modeling Report)
LTspice Version
1Copyright (C) Siam Bee Technologies 2016
- 2. TB67S149FTG (Equivalent Circuit)
2Copyright (C) Siam Bee Technologies 2016
MO
RGNDA
RGNDB
Rgnd
Pre_Fab
UOPR
POR_TB67S
VM_IN POR
POR5CC
VM Por
VCC Por5
Sel_Fst
Pre_Fb
Pre_Fbb
0
RefA
RefAB
Por5
Sel_Hst_a
A
Sel_1_8
Sel_1_16
Sel_Hst
Pre_Fa
Pre_Fab
Sel_Qst
Sel_Fst
Sel_1_32
Com0
Sel_Hst_b
Riso_Vcom
VCOM
AB
UPnPC
PnAC
RESET
CLK
CWCCW
ENABLE
Disable
Sel_Fst
Sel_Qst
Sel_1_8
Sel_1_16
Sel_1_32
Sel_Hst
PWM_BB
PWM_B
PWM_A
PWM_AB
MO
Sel_Hst_a
Sel_Hst_b
AREF
ABREF
BREF
BBREF
Pre_Fbb
Pre_Fb
Com0
IN+
IN-
OUT+
OUT-
ESN_AB
LIMIT(I(AB), 1u, 5)GND
Rsn_ab
0
0
R2
UOUT2
DRV_OUT_TB67S
VG1
COM
OUT1
GND
OUT2
STB
VG2
C2
UOUT01
DRV_OUT_TB67S
VG1
COM
OUT1
GND
OUT2
STB
VG2
Stby
Urst_Det
2AND_TB67S
Por5
ALM
ERR
Rsn_ab
Temp_In
Rsn_a
Ctrl_Rst
Ustby
STBY_TB67S
STBY
DM0
DM2
DM3
RST_DET
VREF
IN+
IN-
OUT+
OUT-
ESN_A
LIMIT(I(A), 1u, 5)
Pre_Fa
Rsn_a
0
Sel_Hst
Por
0
Sel_Qst
DMODE0
DMODE2
DMODE1
DMODE0
Sel_1_8
UPRE1
DRV_PRE_TB67S
G1
G2
VSUB
IN2
IN1
OFF1
OFF2
BRK
OSCM
Por
URS_B
RSCOMP_TB67S
Ctrl_OUT1
Ctrl_OUT2
VREF1
OSC_IN
IRT_IN
RSN1
RSN2
POR5
VREF2
REF
Sel_1_16
OUTB+
OUTB-
Sel_1_32
B
OUTA-
BB
OUTA+
Por5
Gfbb
Gfb
IN+
IN-
OUT+
OUT-
ESN_BB
LIMIT(I(BB), 1u, 5)
0
Rsn_bb
0
Sel_Hst_a
DMODE1
R3
UOSCM1
OSC_TB67S
VREG
ROSCM GND
IRT
OSC
C3
IN+
IN-
OUT+
OUT-
ESN_B
LIMIT(I(B), 1u, 5)
Rsn_b
0
0
R4
C4
DMODE2
R1
Sel_Hst_b
RefBB
RefB
URS_A
RSCOMP_TB67S
Ctrl_OUT1
Ctrl_OUT2
VREF1
OSC_IN
IRT_IN
RSN1
RSN2
POR5
VREF2
REF
C1
UTSD_ISD
ERR_DET_TB67S
ALM
Temp_In
ERR
Ilim_A
Ilim_AB
POR5
Ctrl_Rst
Ilim_B
Ilim_BB
RefA
Gfa
Gfab
Ctrl_Rst
RefAB
RefB
RESET
CLK
CW/CCW
ENABLE
RefBB
UBRK
BRK_TB67S
BRKExtBrk
UMD_LOGIC
DMODE_TB67S
Sel_1_8
Sel_1_16
Dm0
Dm1
Dm2
Sel_1_32
Sel_Fst
Sel_Hst
Sel_Qst
Sel_Hst_a
Sel_Hst_b
UPRE2
DRV_PRE_TB67S
G1
G2
VSUB
IN2
IN1
OFF1
OFF2
BRK
Rsn_bb
Rsn_b
BRAKE
Pin Configuration
- 3. UPnPC Block (Equivalent Circuit)
3Copyright (C) Siam Bee Technologies 2016
UPnPC
PnAC
RESET
CLK
CWCCW
ENABLE
Disable
Sel_Fst
Sel_Qst
Sel_1_8
Sel_1_16
Sel_1_32
Sel_Hst
PWM_BB
PWM_B
PWM_A
PWM_AB
MO
Sel_Hst_a
Sel_Hst_b
AREF
ABREF
BREF
BBREF
CMO
100pF
InAB5
0
RST
CLK0
CW0
MO
UQSTP
QST_TB67S
Qst_Ref_AB
Qst_Ref_A
Qst_Ref_B
Qst_Ref_BB
MO_Qst
RST
Qs_A
Qs_AB
Qs_B
Qs_BB
CLK0
CW0
CW0
MO_1_32
MO_Qst
U32STP
32ST_TB67S
MO_1_32
RST
32_A
32_AB
32_B
32_BB
CLK0
32_Ref_A
CW0
32_Ref_B
32_Ref_AB
32_Ref_BB
InBB2
RST
CLK0
MO_1_16
InB2
InAB2
InA2
Sel_Hst
Sel_Fst
UMO_OUT
SEL_MO_TB67S
SEL_FST
SEL_HST
SEL_QST
SEL_1_8
SEL_1_16
SEL_1_32
MO_FST
MO_HST
MO_QST
MO_1_8
MO_1_16
MO_1_32
MO
Sel_Qst
Sel_1_32
RST
Sel_1_16
Sel_1_8
M_MO
MNEAM_TB67S
UEX1006
EX_OR_TB67S
A
B
O
DI_TB67S
DMO
0MO_Hst
MO_1_32
MO_Fst
UOR_MO
2OR_TB67S
MO_1_8
MO_Qst
InAB4
InA4
InBB4
InB4
Hst_B_Ref_B
CINT_CLK
0.1pF
IC = 0
0
U10013
DFF_TB67S
CLK
D
R
S
QQB
0
Cref4
1nF
16_Ref_AB
16_Ref_A
16_Ref_BB
16_Ref_B
U10009
DFF_TB67S
CLK
D
R
S
QQB
Hst_B_Ref_BB
InBB6 0
0
IN+
IN-
OUT+
OUT-
EREFAB1
LIMIT(V(R_AB5, 0)+V(R_AB6, 0)+V(R_AB7, 0), 0, 1)
8_Ref_A
8_Ref_BB
8_Ref_B
8_Ref_AB
RST
UREF5
SEL_REF_TB67S
INA
INAB
INB
INBB
SEL
REFA
REFAB
REFB
REFBB
Sel_1_16
R_B6
R_AB6
R_A6
R_BB6
UEX1001
EX_OR_TB67S
A
B
O
0
0
IN+
IN-
OUT+
OUT-
EREFBB1
LIMIT(V(R_BB5, 0)+V(R_BB6, 0)+V(R_BB7, 0), 0, 1)
0
IN+
IN-
OUT+
OUT-
EREFAB
LIMIT(V(%IN+, %IN-)+V(RST, 0), 0, 1)
0
UREF4
SEL_REF_TB67S
INA
INAB
INB
INBB
SEL
REFA
REFAB
REFB
REFBB
Sel_1_8
R_A5
R_BB5
R_B5
R_AB5
BREF
U10004
DFF_TB67S
CLK
D
R
S
QQB
0
IN+
IN-
OUT+
OUT-
EREFB
LIMIT(V(%IN+, %IN-)+V(RST, 0), 0, 1)
0
UEX1007
EX_OR_TB67S
A
B
O
UIN2
IN_TB67S
I O
UIN1
IN_TB67S
I O
IN+
IN-
OUT+
OUT-
EREFBB
LIMIT(V(%IN+, %IN-)+V(RST, 0), 0, 1)
00
UREF1
SEL_REF_TB67S
INA
INAB
INB
INBB
SEL
REFA
REFAB
REFB
REFBB
0
IN+
IN-
OUT+
OUT-
ESUM4
LIMIT(V(%IN+)+V(%IN-), 0, 1)
Sel_Hst_a
USEL_1_8
SEL_MODE_TB67S
SEL
OUT_A
OUT_AB
OUT_B
OUT_BB
IN_A
IN_AB
IN_B
IN_BB
UEX1000
EX_OR_TB67S
A
B
O
Sel_Fst
0
IN+
IN-
OUT+
OUT-
EREFB0
LIMIT(V(R_B1, 0)+V(R_B2, 0)+V(R_B3, 0)+V(R_B4, 0), 0, 1)
0
Qst_Ref_B
Qst_Ref_A
Qst_Ref_BB
Qst_Ref_AB
UEX1002
EX_OR_TB67S
A
B
O
RST
U10005
DFF_TB67S
CLK
D
R
S
QQB
0
IN+
IN-
OUT+
OUT-
ESUM1
LIMIT(V(%IN+)+V(%IN-), 0, 1)
R_B7
R_AB7
UREF6
SEL_REF_TB67S
INA
INAB
INB
INBB
SEL
REFA
REFAB
REFB
REFBB
Sel_1_32
R_A7
R_BB7
UEX1008
EX_OR_TB67S
A
B
O
0
0
UINV_CLK
INV_TB67S
IN+
IN-
OUT+
OUT-
EREFBB0
LIMIT(V(R_BB1, 0)+V(R_BB2, 0)+V(R_BB3, 0)+V(R_BB4, 0), 0, 1)
Hst_A_Ref_AB
ABREF
UREF3
SEL_REF_TB67S
INA
INAB
INB
INBB
SEL
REFA
REFAB
REFB
REFBB
0
CINT_RST
0.1pF
IC = 5
USEL_1_32
SEL_MODE_TB67S
SEL
OUT_A
OUT_AB
OUT_B
OUT_BB
IN_A
IN_AB
IN_B
IN_BB
UREF2
SEL_REF_TB67S
INA
INAB
INB
INBB
SEL
REFA
REFAB
REFB
REFBB
Sel_Qst
R_AB3
RST
U3_BB1
2OR_TB67S
0
IN+
IN-
OUT+
OUT-
ESUM2
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
EREFAB0
LIMIT(V(R_AB1, 0)+V(R_AB2, 0)+V(R_AB3, 0)+V(R_AB4, 0), 0, 1)
0
0
UEX1003
EX_OR_TB67S
A
B
O
Hst_A_Ref_B
U10010
DFF_TB67S
CLK
D
R
S
QQB
R_AB2
BBREF
U10006
DFF_TB67S
CLK
D
R
S
QQB
U10000
DFF_TB67S
CLK
D
R
S
QQB
Sel_Qst
InBB1
InB1
InA1
R_AB1
InAB1
R_A1
R_BB1
R_B1
MO_FstCLK0
RST
Sel_Fst UREF0
SEL_REF_TB67S
INA
INAB
INB
INBB
SEL
REFA
REFAB
REFB
REFBB
UFSTP
FST_TB67S
FR_A
MO_Fst
Fs_A
Fs_B
RST
CLK0
Fs_AB
Fs_BB
FR_AB
FR_B
FR_BB
Fst_Ref_AB
Fst_Ref_A
Fst_Ref_BB
Fst_Ref_B
InBB2
InB2
InA2
UEX1009
EX_OR_TB67S
A
B
O
UHSTP
HST_TB67S
Hst_A_Ref_A
Hst_A_Ref_B
Hst_A_Ref_AB
Hst_A_Ref_BB
Hsa_A
Hsa_AB
Hsa_B
Hsa_BB
MO_Hst
RST
CLK0
Hst_B_Ref_A
Hst_B_Ref_BB
Hst_B_Ref_B
Hst_B_Ref_AB
Hsa_A
H1
RST
0
32_A
RST
0
RST
32_BB
8_B
32_AB
32_B
0
Sel_1_8
1/32 step (H, H, H)
8_B
Half step (a) (L, H, L)
Half step (b) (H, L, L)
H0
0
RST
Hsa_AB
Hs0_A
Hsa_B
Hsa_BB
InA6
0
R_B2
CLK0
RST
8_A
RST
0
RST
8_BB
Hsa_B
8_AB
8_B
0
Sel_1_16
Hst_A_Ref_BB
1/8 step (H, L, H)
Hsa_B
Sel_1_32
U10001
DFF_TB67S
CLK
D
R
S
QQB
Sel_1_8
InAB4
InBB4
InB4
InA4
Sel_Hst
Hs0_AB
Sel_Hst_a
R_B3
Sel_1_32
InAB1
RESET
CLK
Sel_Hst_b
0
0
IN+
IN-
OUT+
OUT-
EREFB1
LIMIT(V(R_B5, 0)+V(R_B6, 0)+V(R_B7, 0), 0, 1)
InAB2
UEX1004
EX_OR_TB67S
A
B
O
UENA
IN_TB67S
I O
R_AB4
16_A
0
R_A4
R_BB4
R_B4
R_BB2
16_BB
RST
RST
Qs_B
InAB3
16_B
16_AB
0
U10011
DFF_TB67S
CLK
D
R
S
QQB
Qs_B
1/16 step (H, H, L)
0
RST
Fs_A
RST
CLK0
0
CWCCW
IN+
IN-
OUT+
OUT-
EREFA
LIMIT(V(%IN+, %IN-)+V(RST, 0), 0, 1)
CLK0
Fs_BB
Fs_AB
N0
N1 Fs_B
0
UIN3
IN_TB67S
I O
Qs_A
RST
0
RST
Qs_BB
U10007
DFF_TB67S
CLK
D
R
S
QQB
Fs_B
Qs_BQs_B
Qs_AB
InAB4
0
ENABLE
R_BB3
0
Cref1
1nF
MO_Hst
Fs_B
Full step (L, L, L) - Standby
Full step (L, L, H)
UStg_Out
2AND_TB67S
Sel_Hst
ONOFF
PWM_BB
UPWM_OUT
SEL_MODE_TB67S
SEL
OUT_A
OUT_AB
OUT_B
OUT_BB
IN_A
IN_AB
IN_B
IN_BB
ONOFF
PWM_B
PWM_AB
PWM_A
Sel_Fst
USEL_1_16
SEL_MODE_TB67S
SEL
OUT_A
OUT_AB
OUT_B
OUT_BB
IN_A
IN_AB
IN_B
IN_BB
Sel_Qst
Quarter step (L, H, H)
Q0
Sel_1_16
Q1
UEX1010
EX_OR_TB67S
A
B
O
AREF
InAB5
InA2
Disable
InAB6
InA3
InA5
InA4
InAB3
InBB3
InB3
USEL_Fst
SEL_MODE_TB67S
SEL
OUT_A
OUT_AB
OUT_B
OUT_BB
IN_A
IN_AB
IN_B
IN_BB
InA3
InA6
U1_A
3OR_TB67S
InB1
InA1
InBB1
InAB1
32_Ref_B
32_Ref_AB
32_Ref_A
32_Ref_BB
U2_A
3OR_TB67S
InB1
RST
U10002
DFF_TB67S
CLK
D
R
S
QQB
Hs0_B
Hs0_A
CLK0
InB2
InAB6
0
0
IN+
IN-
OUT+
OUT-
EREFA1
LIMIT(V(R_A5, 0)+V(R_A6, 0)+V(R_A7, 0), 0, 1)
CLK0
R_A2
U3_A
2OR_TB67S
InB3
U1_B
3OR_TB67S
U2_B
3OR_TB67S
Hs0_B
U3_B
2OR_TB67S
UEX1005
EX_OR_TB67S
A
B
O
0
CLK0
RST
Hs0_BB
InB4
U1_BB
3OR_TB67S
U2_BB
3OR_TB67S
U3_BB
2OR_TB67S
CW0
InB5
0
InA1
InB6
InAB5
U10012
DFF_TB67S
CLK
D
R
S
QQB
InBB5
InB5
InA5
InBB2
InBB1
InBB3
InAB6
InBB6
InB6
InA6
U1_AB
3OR_TB67S
U2_AB
3OR_TB67S
U3_AB
2OR_TB67S
Hst_B_Ref_A
InBB4
InBB6
InBB5
InAB2
U10008
DFF_TB67S
CLK
D
R
S
QQB
USEL_Qst
SEL_MODE_TB67S
SEL
OUT_A
OUT_AB
OUT_B
OUT_BB
IN_A
IN_AB
IN_B
IN_BB
0
IN+
IN-
OUT+
OUT-
ESUM3
LIMIT(V(%IN+)+V(%IN-), 0, 1)
UEX1011
EX_OR_TB67S
A
B
O
Cref2
1nF
0
R_A3
U3_AB1
2OR_TB67S
Sel_Hst_b
InB6
U10003
DFF_TB67S
CLK
D
R
S
QQB
Hst_A_Ref_A
0
IN+
IN-
OUT+
OUT-
EREFA0
LIMIT(V(R_A1, 0)+V(R_A2, 0)+V(R_A3, 0)+V(R_A4, 0), 0, 1)
0
Hst_B_Ref_AB
USEL_Hst
SEL_MODE_TB67S
SEL
OUT_A
OUT_AB
OUT_B
OUT_BB
IN_A
IN_AB
IN_B
IN_BB
RST
InAB3
InA3
InBB3
InB3
Cref3
1nF
U16STP
16ST_TB67S
16_Ref_A
16_Ref_BB
16_Ref_B
16_Ref_AB
MO_1_16
16_A
RST
16_AB
16_B
16_BB
CLK0
CW0
CLK0 MO_1_16
CW0
0
U8STP
8ST_TB67S
8_Ref_A
8_Ref_AB
8_Ref_B
8_Ref_BB
MO_1_8
8_A
8_AB
8_B
8_BB
RST
CLK0
CW0
RST
CLK0 MO_1_8
InA5
InBB5
InB5
CW0
- 4. UPnPC-UFSTP Block (Equivalent Circuit)
4Copyright (C) Siam Bee Technologies 2016
0
0
FR_B
IN+
IN-
OUT+
OUT-
EFR4
LIMIT(V(Fs_BB, 0), 0, 1)
0
0
FR_BB
IN+
IN-
OUT+
OUT-
EFR1
LIMIT(V(Fs_A, 0), 0, 1)
0
Full step (L, L, H)
0
U10139
DFF_TB67S
CLKD
R
S
QQB
RST
0
CLK0
FsB0
U10138
DFF_TB67S
CLKD
R
S
QQB
0
RST
FsA0
CLK0
FR_A
FsB0
Fs_B
UEX1012
EX_OR_TB67S
A
B
O
UMO_100
2AND_TB67S
MO_Fst
Fs_A
Fs_B
CLK0
RST
U10140
DFF_TB67S
CLKD
R
S
QQB
RST
0
CLK0
U10141
DFF_TB67S
CLKD
R
S
QQB
0
RST
FsAB0
CLK0
Fs_BB
Fs_AB
IN+
IN-
OUT+
OUT-
EFR2
LIMIT(V(Fs_AB, 0), 0, 1)
0
0
FR_AB
FsBB0
IN+
IN-
OUT+
OUT-
EFR3
LIMIT(V(Fs_B, 0), 0, 1)
UFSTP
FST_TB67S
FR_A
MO_Fst
Fs_A
Fs_B
RST
CLK0
Fs_AB
Fs_BB
FR_AB
FR_B
FR_BB
- 5. UPnPC-UHSTP Block (Equivalent Circuit)
5Copyright (C) Siam Bee Technologies 2016
RST
CLK0
U10016
DFF_TB67S
CLK
D
R
S
Q
QB
0
C3
2.5nF
U10022
DFF_TB67S
CLK
D
R
S
Q
QB
0
C4
2.5nF
U10017
DFF_TB67S
CLK
D
R
S
Q
QB
U10023
DFF_TB67S
CLK
D
R
S
Q
QB
U10018
DFF_TB67S
CLK
D
R
S
Q
QB
U10024
DFF_TB67S
CLK
D
R
S
Q
QB
Hsa_B2
0
RST
CLK0
U10019
DFF_TB67S
CLK
D
R
S
Q
QB
U10014
DFF_TB67S
CLK
D
R
S
Q
QB
0
RST
Hsa_A2
CLK0
U10025
DFF_TB67S
CLK
D
R
S
Q
QB
0
Hsa_BB2
0
RST
C1
2.5nF
CLK0
U10020
DFF_TB67S
CLK
D
R
S
Q
QB
0 0
IN+
IN-
OUT+
OUT-
EA_Hst_B
LIMIT(V(%IN+)+V(%IN-), 0, 1)
Hst_A_Ref_A
Hst_A_Ref_B
UA_Hst_A
2AND_TB67S
Hsa_A0
0
RST UB_Hst_AB4
2AND_TB67S
0
RST
UB_Hst_A4
2AND_TB67S
Hst_A_Ref_A
CLK0
Hst_A_Ref_AB
UA_Hst_AB
2AND_TB67S
0 0
IN+
IN-
OUT+
OUT-
EB_Hst100A
LIMIT(V(%IN+, %IN-), 0, 0.29)
0
Hsa_AB0
RST
0
Hst_B_Ref_AIN+
IN-
OUT+
OUT-
EB_Hst_Sum_A
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
0
0
0
0
IN+
IN-
OUT+
OUT-
EA_Hst_AB
LIMIT(V(%IN+)+V(%IN-), 0, 1)
C5
1nF
0
IN+
IN-
OUT+
OUT-
EB_Hst71A
LIMIT(V(%IN+, %IN-), 0, 0.71)
RST
Hsa_AB1
0
Hsa_A1
CLK0
U10015
DFF_TB67S
CLK
D
R
S
Q
QB
Half step (b) (H, L, L)
-
+
+
-
EB_HA
0
00
UB_Hst_B4
2AND_TB67S
IN+
IN-
OUT+
OUT-
EA_Hst_A
LIMIT(V(%IN+)+V(%IN-), 0, 1)
Hst_A_Ref_BB
CLK0
0
UA_Hst_B
2AND_TB67S
IN+
IN-
OUT+
OUT-
EB_Hst100BB
LIMIT(V(%IN+, %IN-), 0, 0.29)
Hst_B_Ref_BB
Hsa_B1
0
0
0
Hsa_B0
RST
IN+
IN-
OUT+
OUT-
EB_Hst_Sum_BB
LIMIT(V(%IN+)+V(%IN-), 0, 1)
Hsa_A1
RST
0
C8
1nF
0
CLK0
IN+
IN-
OUT+
OUT-
EB_Hst71BB
LIMIT(V(%IN+, %IN-), 0, 0.71)
CLK0
0
0
0
Half step (a) (L, H, L)
0
0
UB_Hst_BB4
2AND_TB67S
IN+
IN-
OUT+
OUT-
EA_Hst_BB
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
Hst_A_Ref_BB
Hst_A_Ref_B
RST
IN+
IN-
OUT+
OUT-
EB_Hst100B
LIMIT(V(%IN+, %IN-), 0, 0.29)
CLK0
UA_Hst_BB
2AND_TB67S
Hst_B_Ref_B
0
IN+
IN-
OUT+
OUT-
EB_Hst_Sum_B
LIMIT(V(%IN+)+V(%IN-), 0, 1)
Hsa_BB1
0
0
Hsa_BB0
RST
C7
1nF
CLK0
0
IN+
IN-
OUT+
OUT-
EB_Hst71B
LIMIT(V(%IN+, %IN-), 0, 0.71)
U10021
DFF_TB67S
CLK
D
R
S
Q
QB 0
Hst_A_Ref_AB
0
C2
2.5nF 00
IN+
IN-
OUT+
OUT-
EB_Hst100AB
LIMIT(V(%IN+, %IN-), 0, 0.29)
RST
Hsa_AB2
Hsa_AB1
CLK0
Hst_B_Ref_AB
Hsa_AB2
0
-
+
+
-
EB_HAB
0
IN+
IN-
OUT+
OUT-
EB_Hst_Sum_AB
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
C6
1nF
0
IN+
IN-
OUT+
OUT-
EB_Hst71AB
LIMIT(V(%IN+, %IN-), 0, 0.71)
Hsa_A2
0
Hsa_BB1
Hsa_A
Hsa_BB2
0
-
+
+
-
EB_HBB
Hsa_B2
Hsa_B1
-
+
+
-
EB_HB
0
0
Hsa_A
Hsa_AB
Hsa_AB
Hsa_B
Hsa_BB
Hsa_BB
Hsa_B
Hsa_B
Hsa_B0
UEX1013
EX_OR_TB67S
A
B
O
UMO_101
2AND_TB67S
MO_Hst
UHSTP
HST_TB67S
Hst_A_Ref _A
Hst_A_Ref _B
Hst_A_Ref _AB
Hst_A_Ref _BB
Hsa_A
Hsa_AB
Hsa_B
Hsa_BB
MO_Hst
RST
CLK0
Hst_B_Ref _A
Hst_B_Ref _BB
Hst_B_Ref _B
Hst_B_Ref _AB
- 6. UPnPC-UQSTP Block (Equivalent Circuit)
6Copyright (C) Siam Bee Technologies 2016
UQSTP
QST_TB67S
Qst_Ref _AB
Qst_Ref _A
Qst_Ref _B
Qst_Ref _BB
MO_Qst
RST
Qs_A
Qs_AB
Qs_B
Qs_BB
CLK0
CW0
CW0
U10033
DFF_TB67S
CLKD
R
S
QQB
0
IN+
IN-
OUT+
OUT-
ESUM102
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U_Qst106
2AND_TB67S
U10028
DFF_TB67S
CLKD
R
S
QQB
U10039
DFF_TB67S
CLKD
R
S
QQB
0
U_Qst107
2AND_TB67S
C101
1nF
0
QstA_Rise1
C105
1nF
00
IN+
IN-
OUT+
OUT-
E_Qst102
LIMIT(V(%IN+, %IN-), 0, 0.33)
QAB1
QA1
U_Qst108
2AND_TB67S
R101 1k
R100 1k
0
U10034
DFF_TB67S
CLKD
R
S
QQB
C103
1nF
0
C102
1nF
U_Qst109
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
EA_Qst104
IF(V(CW0, 0)>800m, V(QBB1, 0), V(QB1, 0))
QAB2
0
IN+
IN-
OUT+
OUT-
ESUM100
V(QstA_Rise0)+V(QstA_Rise1)+V(QstA_Rise2)
0
0
0
C104
1nF
QAB2
RST
CLK0
QAB0
0
U10029
DFF_TB67S
CLKD
R
S
QQB
RST
QstA_Rise0
CLK0
0
RST
QAB1
CLK0
U10040
DFF_TB67S
CLKD
R
S
QQB
U_Qst110
2AND_TB67S
0
QBB2
RST
QBB0
CLK0
0
CLK0
RST RST
0
QBB1
CLK0
R103 1k
U_Qst111
2AND_TB67S
U10035
DFF_TB67S
CLKD
R
S
QQB
QstA_Fall2
00
IN+
IN-
OUT+
OUT-
E_Qst107
LIMIT(V(%IN+, %IN-), 0, 0.33)
QstA_Fall1
QstA_Fall3
0 0
IN+
IN-
OUT+
OUT-
E_Qst109
LIMIT(V(%IN+, %IN-), 0, 0.38)
0
0
0 0
IN+
IN-
OUT+
OUT-
EA_Qst106
IF(V(CW0, 0)>800m, V(QBB2, 0), V(QB2, 0))
IN+
IN-
OUT+
OUT-
E_Qst105
LIMIT(V(%IN+, %IN-), 0, 0.29)
QstB_Rise1
Quarter step (L, H, H)
00
U_Qst112
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_Qst115
LIMIT(V(%IN+, %IN-), 0, 0.33)
U10030
DFF_TB67S
CLKD
R
S
QQB 0
0
U10041
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
EB_Qst116
IF(V(CW0, 0)>800m, V(QA1, 0), V(QAB1, 0))
Qs_A
0
0
Qs_BB
Qs_B
QstB_Rise0
0
IN+
IN-
OUT+
OUT-
ESUM107
V(QstB_Rise0)+V(QstB_Rise1)+V(QstB_Rise2)
IN+
IN-
OUT+
OUT-
EA_Qst108
IF(V(CW0, 0)>800m, V(QBB3, 0), V(QB3, 0))
QstB_Fall2
0
U_Qst100
2AND_TB67S
00
0
RST
QstB_Fall1
QAB3
IN+
IN-
OUT+
OUT-
E_Qst119
LIMIT(V(%IN+, %IN-), 0, 0.33)
CLK0
0
QstB_Fall3
QBB3
U_Qst113
2AND_TB67S
0 0
U10036
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
E_Qst201
LIMIT(V(%IN+, %IN-), 0, 0.38)
CLK0
RST
0
0
RST
0
0
QA3
CLK0
0
IN+
IN-
OUT+
OUT-
EB_Qst118
IF(V(CW0, 0)>800m, V(QA2, 0), V(QAB2, 0))
0
RST
QB3
IN+
IN-
OUT+
OUT-
E_Qst117
LIMIT(V(%IN+, %IN-), 0, 0.29)
CLK0
0
0
IN+
IN-
OUT+
OUT-
EA_Qst100
IF(V(CW0, 0)>800m, V(Qs_BB, 0), V(Qs_B, 0))
0
IN+
IN-
OUT+
OUT-
EB_Qst120
IF(V(CW0, 0)>800m, V(QA3, 0), V(QAB3, 0))
0
0
U_Qst114
2AND_TB67S
Qs_B
IN+
IN-
OUT+
OUT-
EB_Qst112
IF(V(CW0, 0)>800m, V(Qs_A, 0), V(Qs_AB, 0))
0
U10031
DFF_TB67S
CLKD
R
S
QQB
00
IN+
IN-
OUT+
OUT-
ESUM108
V(QstB_Fall1)+V(QstB_Fall2)+V(QstB_Fall3)
IN+
IN-
OUT+
OUT-
ESUM101
V(QstA_Fall1)+V(QstA_Fall2)+V(QstA_Fall3)
00
QstB_Rise2
U_Qst115
2AND_TB67S
0 0
U_Qst101
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_Qst120
LIMIT(V(%IN+, %IN-), 0, 0.29)
U10026
DFF_TB67S
CLKD
R
S
QQB
0 0
IN+
IN-
OUT+
OUT-
E_Qst121
LIMIT(V(%IN+, %IN-), 0, 0.38)
U10037
DFF_TB67S
CLKD
R
S
QQB
QstA_Rise2
0
00
IN+
IN-
OUT+
OUT-
EB_Qst202
IF(V(CW0, 0)>800m, V(Qs_AB, 0), V(Qs_A, 0))
IN+
IN-
OUT+
OUT-
E_Qst103
LIMIT(V(%IN+, %IN-), 0, 0.29)
0
QB0
Qs_B
QA2
0
Qst_Ref _B
R105 1k
IN+
IN-
OUT+
OUT-
ESUM105
LIMIT(V(%IN+)+V(%IN-), 0, 1)
QstBB_Rise1
00
QstAB_Rise1
00
IN+
IN-
OUT+
OUT-
E_Qst122
LIMIT(V(%IN+, %IN-), 0, 0.33)
IN+
IN-
OUT+
OUT-
E_Qst101
LIMIT(V(%IN+, %IN-), 0, 0.38)
0
0
0
0
U_Qst102
2AND_TB67S
Qs_A
IN+
IN-
OUT+
OUT-
EBB_Qst117
IF(V(CW0, 0)>800m, V(QAB1, 0), V(QA1, 0))
Qs_AB
IN+
IN-
OUT+
OUT-
E_Qst113
LIMIT(V(%IN+, %IN-), 0, 0.33)
0
IN+
IN-
OUT+
OUT-
ESUM109
V(QstBB_Rise0)+V(QstBB_Rise1)+V(QstBB_Rise2)
QstBB_Fall2
QstBB_Rise0
0
0
IN+
IN-
OUT+
OUT-
EAB_Qst115
IF(V(CW0, 0)>800m, V(QB1, 0), V(QBB1, 0))
0
00
0
QstBB_Fall1
IN+
IN-
OUT+
OUT-
E_Qst123
LIMIT(V(%IN+, %IN-), 0, 0.33)
IN+
IN-
OUT+
OUT-
ESUM103
V(QstAB_Rise0)+V(QstAB_Rise1)+V(QstAB_Rise2)
QstAB_Rise0
0
QstBB_Fall3
QstAB_Fall2
0 0
0 0
IN+
IN-
OUT+
OUT-
E_Qst202
LIMIT(V(%IN+, %IN-), 0, 0.38)
IN+
IN-
OUT+
OUT-
E_Qst118
LIMIT(V(%IN+, %IN-), 0, 0.33)
QstAB_Fall1
0
QstAB_Fall3
0
0
0
0
0
IN+
IN-
OUT+
OUT-
EBB_Qst119
IF(V(CW0, 0)>800m, V(QAB2, 0), V(QA2, 0))
IN+
IN-
OUT+
OUT-
E_Qst200
LIMIT(V(%IN+, %IN-), 0, 0.38)
IN+
IN-
OUT+
OUT-
E_Qst124
LIMIT(V(%IN+, %IN-), 0, 0.29)
0
0
0
0
0
0
IN+
IN-
OUT+
OUT-
EBB_Qst121
IF(V(CW0, 0)>800m, V(QAB3, 0), V(QA3, 0))
0
IN+
IN-
OUT+
OUT-
EAB_Qst117
IF(V(CW0, 0)>800m, V(QB2, 0), V(QBB2, 0))
Qs_BB
IN+
IN-
OUT+
OUT-
EBB_Qst113
IF(V(CW0, 0)>800m, V(Qs_AB, 0), V(Qs_A, 0))
IN+
IN-
OUT+
OUT-
E_Qst116
LIMIT(V(%IN+, %IN-), 0, 0.29)
0
0
IN+
IN-
OUT+
OUT-
ESUM110
V(QstBB_Fall1)+V(QstBB_Fall2)+V(QstBB_Fall3)
QstBB_Rise2
0
0
0
0
0
IN+
IN-
OUT+
OUT-
E_Qst125
LIMIT(V(%IN+, %IN-), 0, 0.29)
U10032
DFF_TB67S
CLKD
R
S
QQB
0 0
IN+
IN-
OUT+
OUT-
EAB_Qst119
IF(V(CW0, 0)>800m, V(QB3, 0), V(QBB3, 0))
IN+
IN-
OUT+
OUT-
E_Qst126
LIMIT(V(%IN+, %IN-), 0, 0.38)
0
IN+
IN-
OUT+
OUT-
EBB_Qst203
IF(V(CW0, 0)>800m, V(Qs_A, 0), V(Qs_AB, 0))
0
QBB0
Qs_BB
Qs_AB
0
Qst_Ref _BB
R106 1k
QBB1
0
C109
1nF
IN+
IN-
OUT+
OUT-
EAB_Qst111
IF(V(CW0, 0)>800m, V(Qs_B, 0), V(Qs_BB, 0))
0
U_Qst124
2AND_TB67S
0
C110
1nF
U_Qst125
2AND_TB67S
0
0
QBB2
C111
1nF
IN+
IN-
OUT+
OUT-
ESUM104
V(QstAB_Fall1)+V(QstAB_Fall2)+V(QstAB_Fall3)
U_Qst126
2AND_TB67S
R107 1k
0
QstAB_Rise2
U_Qst127
2AND_TB67S
U_Qst128
2AND_TB67S
0 0
U_Qst129
2AND_TB67S
U_Qst130
2AND_TB67S
U_Qst103
2AND_TB67S
U_Qst131
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E_Qst114
LIMIT(V(%IN+, %IN-), 0, 0.29)
IN+
IN-
OUT+
OUT-
ESUM111
LIMIT(V(%IN+)+V(%IN-), 0, 1)
QB1
0
C106
1nF
0
U_Qst116
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E_Qst112
LIMIT(V(%IN+, %IN-), 0, 0.38)
C107
1nF
U_Qst117
2AND_TB67S
QB2
0
C108
1nF
U_Qst118
2AND_TB67S
R104 1k
0
U_Qst119
2AND_TB67S
IN+
IN-
OUT+
OUT-
EAB_Qst201
IF(V(CW0, 0)>800m, V(Qs_BB, 0), V(Qs_B, 0))
0
U_Qst120
2AND_TB67S
U_Qst121
2AND_TB67S
Qs_AB
QAB0
Qst_Ref _AB
U_Qst122
2AND_TB67S
U_Qst123
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
ESUM106
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
RST
QA2
CLK0
QA0
0
RST
CLK0
0
RST
QA1
CLK0
R102 1k
U_Qst104
2AND_TB67S
U10027
DFF_TB67S
CLKD
R
S
QQB
0
U10038
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
EA_Qst110
IF(V(CW0, 0)>800m, V(Qs_B, 0), V(Qs_BB, 0))
0
Qs_A
0
QB2
RST
QB0
CLK0
0
RST
0
CLK0
0
RST
C100
1nF
QB1
CLK0
QA0
RST
U_Qst105
2AND_TB67S
Qst_Ref _A
Qs_B
QB0
UEX1014
EX_OR_TB67S
A
B
O
UMO_102
2AND_TB67S
MO_Qst
CLK0
- 7. UPnPC-U8STP Block (Equivalent Circuit)
7Copyright (C) Siam Bee Technologies 2016
U8STP
8ST_TB67S
8_Ref _A
8_Ref _AB
8_Ref _B
8_Ref _BB
MO_1_8
8_A
8_AB
8_B
8_BB
RST
CLK0
CW0
IN+
IN-
OUT+
OUT-
E8158
LIMIT(V(%IN+, %IN-), 0, 0.18)
8BB_Rise1
IN+
IN-
OUT+
OUT-
EBB_8135
IF(V(CW0, 0)>800m, V(8AB6, 0), V(8A6, 0))
U8134
2AND_TB67S
8_Ref _B
U8135
2AND_TB67S
8_B
0
U8101
2AND_TB67S
IN+
IN-
OUT+
OUT-
EB_8118
IF(V(CW0, 0)>800m, V(8A0, 0), V(8AB0, 0))
8B_Rise2
0
00
00
8B2
IN+
IN-
OUT+
OUT-
E8130
LIMIT(V(%IN+, %IN-), 0, 0.2)8B0
RST
IN+
IN-
OUT+
OUT-
E8131
LIMIT(V(%IN+, %IN-), 0, 0.02)
8B_Fall7
U8136
2AND_TB67S
U8137
2AND_TB67S
0 0
IN+
IN-
OUT+
OUT-
E8132
LIMIT(V(%IN+, %IN-), 0, 0.2)
0
0
8B_Rise6
IN+
IN-
OUT+
OUT-
EB_8119
IF(V(CW0, 0)>800m, V(8A7, 0), V(8AB7, 0))
U8138
2AND_TB67S
0
8BB6
0
0
8B6
IN+
IN-
OUT+
OUT-
ESUM126
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
RST
U8139
2AND_TB67S
8B_Rise7
U8140
2AND_TB67S
8BB7
00
8B7
RST
U8141
2AND_TB67S
U8142
2AND_TB67S
CLK0
U8143
2AND_TB67S
0
U10060
DFF_TB67S
CLKD
R
S
QQB
0
8B_Fall2
IN+
IN-
OUT+
OUT-
EB_8120
IF(V(CW0, 0)>800m, V(8A1, 0), V(8AB1, 0))
00
8B_Fall1
8B_Fall3
IN+
IN-
OUT+
OUT-
E8133
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10049
DFF_TB67S
CLKD
R
S
QQB
00
IN+
IN-
OUT+
OUT-
E8134
LIMIT(V(%IN+, %IN-), 0, 0.12)
0
0
0
0
IN+
IN-
OUT+
OUT-
EB_8121
IF(V(CW0, 0)>800m, V(8A2, 0), V(8AB2, 0))
IN+
IN-
OUT+
OUT-
E8135
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
U10071
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
EB_8122
IF(V(CW0, 0)>800m, V(8A3, 0), V(8AB3, 0))
0
0
8_B
IN+
IN-
OUT+
OUT-
EB_8123
IF(V(CW0, 0)>800m, V(8AB0, 0), V(8A0, 0))
0
U8144
2AND_TB67S
8B_Rise3
U8145
2AND_TB67S
IN+
IN-
OUT+
OUT-
E8136
LIMIT(V(%IN+, %IN-), 0, 0.18)
00
0
0
8B3
IN+
IN-
OUT+
OUT-
ESUM127
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U8114
2AND_TB67S
8A_Fall6
C124
1nF
R116 1k
0
R117 1k
0
0
0
0
C125
1nF
IN+
IN-
OUT+
OUT-
E8113
LIMIT(V(%IN+, %IN-), 0, 0.18)
IN+
IN-
OUT+
OUT-
ESUM128
V(8B_Fall1)+V(8B_Fall2)+V(8B_Fall3)+V(8B_Fall4)
0
0
0
0
0
IN+
IN-
OUT+
OUT-
ESUM129
V(8B_Fall5)+V(8B_Fall6)+V(8B_Fall7)
U8102
2AND_TB67S
0
C126
1nF
IN+
IN-
OUT+
OUT-
EA_8107
IF(V(CW0, 0)>800m, V(8BB6, 0), V(8B6, 0))
U8146
2AND_TB67S
0
C127
1nF
R118 1k
8AB7
R119 1k
IN+
IN-
OUT+
OUT-
ESUM130
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E8106
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
C128
1nF0
0
IN+
IN-
OUT+
OUT-
ESUM131
V(8B_Rise0)+V(8B_Rise1)+V(8B_Rise2)+V(8B_Rise3)
CLK0
RST
0
0
IN+
IN-
OUT+
OUT-
ESUM132
V(8B_Rise4)+V(8B_Rise5)+V(8B_Rise6)+V(8B_Rise7)
U10055
DFF_TB67S
CLKD
R
S
QQB
C129
1nF
0
8B_Rise4
IN+
IN-
OUT+
OUT-
E8137
LIMIT(V(%IN+, %IN-), 0, 0.18)
U8100
2AND_TB67S
8_A
0
8_Ref _A
8B_Fall4
8B4
0
0
U10066
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
E8138
LIMIT(V(%IN+, %IN-), 0, 0.15)
U8147
2AND_TB67S
8_AB
00
IN+
IN-
OUT+
OUT-
EA_8100
IF(V(CW0, 0)>800m, V(8BB0, 0), V(8B0, 0))
0
IN+
IN-
OUT+
OUT-
E8139
LIMIT(V(%IN+, %IN-), 0, 0.15)
U8117
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
EB_8124
IF(V(CW0, 0)>800m, V(8A4, 0), V(8AB4, 0))
0
8B_Fall5
U8118
2AND_TB67S
IN+
IN-
OUT+
OUT-
E8140
LIMIT(V(%IN+, %IN-), 0, 0.12)
U8148
2AND_TB67S
00
IN+
IN-
OUT+
OUT-
E8141
LIMIT(V(%IN+, %IN-), 0, 0.18)
8_AB
0
8_Ref _AB
0
0
IN+
IN-
OUT+
OUT-
EB_8125
IF(V(CW0, 0)>800m, V(8A5, 0), V(8AB5, 0))
IN+
IN-
OUT+
OUT-
E8142
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10044
DFF_TB67S
CLKD
R
S
QQB
U8149
2AND_TB67S
U8150
2AND_TB67S
8B_Fall6
IN+
IN-
OUT+
OUT-
EAB_8109
IF(V(CW0, 0)>800m, V(8B0, 0), V(8BB0, 0))
0
0
0
8AB_Rise2
IN+
IN-
OUT+
OUT-
E8143
LIMIT(V(%IN+, %IN-), 0, 0.18)
0
0
8A_Rise1
IN+
IN-
OUT+
OUT-
EB_8126
IF(V(CW0, 0)>800m, V(8A6, 0), V(8AB6, 0))
0 0
8B_Rise5
8B_Rise1
IN+
IN-
OUT+
OUT-
E8144
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
8AB2
00
0
8B1
0
0
0
IN+
IN-
OUT+
OUT-
E8115
LIMIT(V(%IN+, %IN-), 0, 0.2)
8B5
0
0
8B_Rise0
U8151
2AND_TB67S
8_Ref _BB
8A_Rise2
U8152
2AND_TB67S
8A_Rise5
IN+
IN-
OUT+
OUT-
E8116
LIMIT(V(%IN+, %IN-), 0, 0.02)
8_BB
0
IN+
IN-
OUT+
OUT-
EBB_8127
IF(V(CW0, 0)>800m, V(8AB0, 0), V(8A0, 0))
8BB_Rise2
8AB0
0
U8119
2AND_TB67S
00
0
8BB2
00
0
8A1
0
8AB_Fall7
U8120
2AND_TB67S
0
0 0
IN+
IN-
OUT+
OUT-
E8117
LIMIT(V(%IN+, %IN-), 0, 0.2)
8A5
0
8A2
00
0
IN+
IN-
OUT+
OUT-
EAB_8110
IF(V(CW0, 0)>800m, V(8B7, 0), V(8BB7, 0))
U8121
2AND_TB67S
8AB_Rise6
0
IN+
IN-
OUT+
OUT-
E8100
LIMIT(V(%IN+, %IN-), 0, 0.2)
0
8AB6
0
IN+
IN-
OUT+
OUT-
ESUM119
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U8122
2AND_TB67S
IN+
IN-
OUT+
OUT-
E8107
LIMIT(V(%IN+, %IN-), 0, 0.02)
U8123
2AND_TB67S
8A_Rise0
8AB_Rise7
0
8AB7
0
U8125
2AND_TB67S
U8124
2AND_TB67S
U8126
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
EAB_8111
IF(V(CW0, 0)>800m, V(8B1, 0), V(8BB1, 0))
8AB_Fall2
0 0
8AB_Fall1
8A0
IN+
IN-
OUT+
OUT-
E8118
LIMIT(V(%IN+, %IN-), 0, 0.09)
8AB_Fall3
00
IN+
IN-
OUT+
OUT-
E8119
LIMIT(V(%IN+, %IN-), 0, 0.12)
0
0
0
0
IN+
IN-
OUT+
OUT-
EAB_8112
IF(V(CW0, 0)>800m, V(8B2, 0), V(8BB2, 0))
IN+
IN-
OUT+
OUT-
E8120
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
IN+
IN-
OUT+
OUT-
EAB_8113
IF(V(CW0, 0)>800m, V(8B3, 0), V(8BB3, 0))
0
0
IN+
IN-
OUT+
OUT-
EAB_8114
IF(V(CW0, 0)>800m, V(8BB0, 0), V(8B0, 0))
8_AB
U8127
2AND_TB67S
U8128
2AND_TB67S
8AB_Rise3
IN+
IN-
OUT+
OUT-
E8121
LIMIT(V(%IN+, %IN-), 0, 0.18)
00
8AB3
0
0
IN+
IN-
OUT+
OUT-
ESUM120
LIMIT(V(%IN+)+V(%IN-), 0, 1)
C118
1nF
U8109
2AND_TB67S
R112 1k
R113 1k
0
8A_Fall7
0
0
U8115
2AND_TB67S
C119
1nF
00
IN+
IN-
OUT+
OUT-
ESUM121
V(8AB_Fall1)+V(8AB_Fall2)+V(8AB_Fall3)+V(8AB_Fall4)
0
0
IN+
IN-
OUT+
OUT-
E8114
LIMIT(V(%IN+, %IN-), 0, 0.2)
0
0
IN+
IN-
OUT+
OUT-
ESUM122
V(8AB_Fall5)+V(8AB_Fall6)+V(8AB_Fall7)
0
IN+
IN-
OUT+
OUT-
EA_8108
IF(V(CW0, 0)>800m, V(8BB7, 0), V(8B7, 0))
C120
1nF
0
U8103
2AND_TB67S
U8129
2AND_TB67S
0
C121
1nF
IN+
IN-
OUT+
OUT-
ESUM123
LIMIT(V(%IN+)+V(%IN-), 0, 1)
R114 1k
R115 1k
0
0
C122
1nF0
8B6
IN+
IN-
OUT+
OUT-
ESUM124
V(8AB_Rise0)+V(8AB_Rise1)+V(8AB_Rise2)+V(8AB_Rise3)
0
0
RST
0
CLK0
IN+
IN-
OUT+
OUT-
ESUM125
V(8AB_Rise4)+V(8AB_Rise5)+V(8AB_Rise6)+V(8AB_Rise7)
0
C123
1nF
8B5
IN+
IN-
OUT+
OUT-
E8122
LIMIT(V(%IN+, %IN-), 0, 0.18)
8AB_Rise4
0
0
RST
0
8AB4
CLK0
0
8AB_Fall4
RST
IN+
IN-
OUT+
OUT-
E8123
LIMIT(V(%IN+, %IN-), 0, 0.15)
8B4
U8130
2AND_TB67S
00
CLK0
IN+
IN-
OUT+
OUT-
E8124
LIMIT(V(%IN+, %IN-), 0, 0.15)
U10061
DFF_TB67S
CLKD
R
S
QQB
8A_Rise6
0
0
0
U10050
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
EAB_8115
IF(V(CW0, 0)>800m, V(8B4, 0), V(8BB4, 0))
0
IN+
IN-
OUT+
OUT-
E8125
LIMIT(V(%IN+, %IN-), 0, 0.12)
8AB_Fall5
U8131
2AND_TB67S
0 0
8A6
IN+
IN-
OUT+
OUT-
E8126
LIMIT(V(%IN+, %IN-), 0, 0.18)
0
0
IN+
IN-
OUT+
OUT-
EAB_8116
IF(V(CW0, 0)>800m, V(8B5, 0), V(8BB5, 0))
0
U10072
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
E8127
LIMIT(V(%IN+, %IN-), 0, 0.09)
U8133
2AND_TB67S
U8132
2AND_TB67S
8AB_Fall6
0 0
CW0
IN+
IN-
OUT+
OUT-
E8128
LIMIT(V(%IN+, %IN-), 0, 0.18)
0
0
IN+
IN-
OUT+
OUT-
EAB_8117
IF(V(CW0, 0)>800m, V(8B6, 0), V(8BB6, 0))
8AB_Rise1
IN+
IN-
OUT+
OUT-
E8129
LIMIT(V(%IN+, %IN-), 0, 0.06)
8AB_Rise5
0 0
0
8AB1
8AB_Rise0
8AB5
0
0
IN+
IN-
OUT+
OUT-
ESUM118
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U8110
2AND_TB67S
U8104
2AND_TB67S
U10056
DFF_TB67S
CLKD
R
S
QQB
U10067
DFF_TB67S
CLKD
R
S
QQB
U10045
DFF_TB67S
CLKD
R
S
QQB
0
8B7
RST
CLK0
8A_Rise7
00
8A7
U8116
2AND_TB67S
8_B
8A7
RST
0
CLK0
U8111
2AND_TB67S
U8105
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
EA_8101
IF(V(CW0, 0)>800m, V(8BB1, 0), V(8B1, 0))
8A_Fall2
0 0
IN+
IN-
OUT+
OUT-
E8109
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10062
DFF_TB67S
CLKD
R
S
QQB
8A_Fall1
U10051
DFF_TB67S
CLKD
R
S
QQB
8A_Fall3
0 0
IN+
IN-
OUT+
OUT-
E8110
LIMIT(V(%IN+, %IN-), 0, 0.12)
0
0
0 0
0
U10073
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
EA_8102
IF(V(CW0, 0)>800m, V(8BB2, 0), V(8B2, 0))
IN+
IN-
OUT+
OUT-
E8108
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
IN+
IN-
OUT+
OUT-
EA_8103
IF(V(CW0, 0)>800m, V(8BB3, 0), V(8B3, 0))
0
IN+
IN-
OUT+
OUT-
EA_8104
IF(V(CW0, 0)>800m, V(8B0, 0), V(8BB0, 0))
0
8_A
U8106
2AND_TB67S
U10057
DFF_TB67S
CLKD
R
S
QQB
U10068
DFF_TB67S
CLKD
R
S
QQB
U10046
DFF_TB67S
CLKD
R
S
QQB
0
8AB5
RST
CLK0
0
RST
8_A
8AB4
CLK0
8AB6
RST
0
CLK0
U8107
2AND_TB67S
U10063
DFF_TB67S
CLKD
R
S
QQB
U10052
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
E8101
LIMIT(V(%IN+, %IN-), 0, 0.18)
8A_Rise3
0 0
8A3
0
0
IN+
IN-
OUT+
OUT-
ESUM115
LIMIT(V(%IN+)+V(%IN-), 0, 1)
C115
1nF
R111 1k
R110 1k
0
0
C116
1nF0
IN+
IN-
OUT+
OUT-
ESUM116
V(8A_Fall1)+V(8A_Fall2)+V(8A_Fall3)+V(8A_Fall4)
0
0
0
IN+
IN-
OUT+
OUT-
ESUM117
V(8A_Fall5)+V(8A_Fall6)+V(8A_Fall7)
C117
1nF
0
U8108
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
ESUM112
LIMIT(V(%IN+)+V(%IN-), 0, 1)
C112
1nF
R108 1k
U10058
DFF_TB67S
CLKD
R
S
QQB
R109 1k
0
C113
1nF
0
IN+
IN-
OUT+
OUT-
ESUM113
V(8A_Rise0)+V(8A_Rise1)+V(8A_Rise2)+V(8A_Rise3)
U10047
DFF_TB67S
CLKD
R
S
QQB
8B0
UEX1015
EX_OR_TB67S
A
B
O
8_B
0
UMO_103
2AND_TB67S
U10069
DFF_TB67S
CLKD
R
S
QQB
0
0
IN+
IN-
OUT+
OUT-
ESUM114
V(8A_Rise4)+V(8A_Rise5)+V(8A_Rise6)+V(8A_Rise7)
0
C114
1nF
IN+
IN-
OUT+
OUT-
E8102
LIMIT(V(%IN+, %IN-), 0, 0.18)
8_BB
8BB0
IN+
IN-
OUT+
OUT-
E8145
LIMIT(V(%IN+, %IN-), 0, 0.2)
8BB_Fall7
IN+
IN-
OUT+
OUT-
E8146
LIMIT(V(%IN+, %IN-), 0, 0.02)
U8153
2AND_TB67S
U8154
2AND_TB67S
MO_1_8
0 0
0
IN+
IN-
OUT+
OUT-
E8147
LIMIT(V(%IN+, %IN-), 0, 0.2)
0
IN+
IN-
OUT+
OUT-
EBB_8128
IF(V(CW0, 0)>800m, V(8AB7, 0), V(8A7, 0))
8BB_Rise6
U8155
2AND_TB67S
00
8BB6
0
IN+
IN-
OUT+
OUT-
ESUM133
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U8156
2AND_TB67S
8BB_Rise7
U8157
2AND_TB67S
00
8BB7
U8158
2AND_TB67S
8A_Rise4
U8159
2AND_TB67S
0 0
U8160
2AND_TB67S
8A4
U10053
DFF_TB67S
CLKD
R
S
QQB
0
8BB_Fall2
0
IN+
IN-
OUT+
OUT-
EBB_8129
IF(V(CW0, 0)>800m, V(8AB1, 0), V(8A1, 0))
U10064
DFF_TB67S
CLKD
R
S
QQB
U10042
DFF_TB67S
CLKD
R
S
QQB
0
8BB_Fall1
IN+
IN-
OUT+
OUT-
E8103
LIMIT(V(%IN+, %IN-), 0, 0.15)
0
8BB_Fall3
8A_Fall4
IN+
IN-
OUT+
OUT-
E8148
LIMIT(V(%IN+, %IN-), 0, 0.09)
U8112
2AND_TB67S
0
0
0
0
IN+
IN-
OUT+
OUT-
E8149
LIMIT(V(%IN+, %IN-), 0, 0.12)
IN+
IN-
OUT+
OUT-
E8111
LIMIT(V(%IN+, %IN-), 0, 0.15)
0
0
0
0
0
CLK0
0
IN+
IN-
OUT+
OUT-
EBB_8130
IF(V(CW0, 0)>800m, V(8AB2, 0), V(8A2, 0))
IN+
IN-
OUT+
OUT-
EA_8105
IF(V(CW0, 0)>800m, V(8BB4, 0), V(8B4, 0))
0
RST
8AB2
IN+
IN-
OUT+
OUT-
E8150
LIMIT(V(%IN+, %IN-), 0, 0.06)
8AB0
CLK0
0
0
0
CLK0
RST RST
0
0
0
IN+
IN-
OUT+
OUT-
EBB_8131
IF(V(CW0, 0)>800m, V(8AB3, 0), V(8A3, 0))
8AB1
8_BB
CLK0
IN+
IN-
OUT+
OUT-
EBB_8132
IF(V(CW0, 0)>800m, V(8A0, 0), V(8AB0, 0))
0
8BB2
U8161
2AND_TB67S
RST
8BB_Rise3
8BB0
U8162
2AND_TB67S
CLK0
0
RST
CLK0
0
IN+
IN-
OUT+
OUT-
E8151
LIMIT(V(%IN+, %IN-), 0, 0.18)
RST
8BB1
CLK0
00
1/8 step (H, L, H)
0
0
8BB3
0
8AB3
RST
IN+
IN-
OUT+
OUT-
ESUM134
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U10059
DFF_TB67S
CLKD
R
S
QQB
R120 1k
C130
1nF
CLK0
8BB3
R121 1k
0
CLK0
RST
0
0
U10048
DFF_TB67S
CLKD
R
S
QQB
8BB_Rise5
0
0
8A3
C131
1nF
RST
IN+
IN-
OUT+
OUT-
E8159
LIMIT(V(%IN+, %IN-), 0, 0.06)
CLK0
U10070
DFF_TB67S
CLKD
R
S
QQB
0
IN+
IN-
OUT+
OUT-
ESUM135
V(8BB_Fall1)+V(8BB_Fall2)+V(8BB_Fall3)+V(8BB_Fall4)
8B3
0
CLK0
RST
0
0
0
0
RST
0
0
8A2
CLK0
8BB_Rise0
8BB1
0
8A0
8BB5
0
IN+
IN-
OUT+
OUT-
E8104
LIMIT(V(%IN+, %IN-), 0, 0.12)
IN+
IN-
OUT+
OUT-
ESUM136
V(8BB_Fall5)+V(8BB_Fall6)+V(8BB_Fall7)
RST
CLK0
0
0
0
C132
1nF
RST
U8163
2AND_TB67S
8A1
CLK0
C133
1nF
8B2
R122 1k
0
RST
8B0
R123 1k
0
CLK0
IN+
IN-
OUT+
OUT-
ESUM137
LIMIT(V(%IN+)+V(%IN-), 0, 1)
RST
CLK0
0
0
RST
0
0
8B1
C134
1nF
CLK0
0
8BB4
RST
0
IN+
IN-
OUT+
OUT-
ESUM138
V(8BB_Rise0)+V(8BB_Rise1)+V(8BB_Rise2)+V(8BB_Rise3)
CLK0
8BB5
0
CLK0
RST
IN+
IN-
OUT+
OUT-
ESUM139
V(8BB_Rise4)+V(8BB_Rise5)+V(8BB_Rise6)+V(8BB_Rise7)
U8113
2AND_TB67S
C135
1nF
8A_Fall5
0
8BB_Rise4
IN+
IN-
OUT+
OUT-
E8152
LIMIT(V(%IN+, %IN-), 0, 0.18)
0
IN+
IN-
OUT+
OUT-
E8112
LIMIT(V(%IN+, %IN-), 0, 0.18)
0
8BB_Fall4
8BB4
0
0
0
IN+
IN-
OUT+
OUT-
EA_8106
IF(V(CW0, 0)>800m, V(8BB5, 0), V(8B5, 0))
IN+
IN-
OUT+
OUT-
E8153
LIMIT(V(%IN+, %IN-), 0, 0.15)
8A6
U8164
2AND_TB67S
0
CLK0
RST
00
0
RST
0
8A5
CLK0
0
RST
0
IN+
IN-
OUT+
OUT-
E8154
LIMIT(V(%IN+, %IN-), 0, 0.15)
8A4
CLK0
8BB_Fall5
IN+
IN-
OUT+
OUT-
EBB_8133
IF(V(CW0, 0)>800m, V(8AB4, 0), V(8A4, 0))
U10054
DFF_TB67S
CLKD
R
S
QQB
IN+
IN-
OUT+
OUT-
E8155
LIMIT(V(%IN+, %IN-), 0, 0.12)
U10065
DFF_TB67S
CLKD
R
S
QQB
U8165
2AND_TB67S
U10043
DFF_TB67S
CLKD
R
S
QQB
0 0
IN+
IN-
OUT+
OUT-
E8105
LIMIT(V(%IN+, %IN-), 0, 0.09)
IN+
IN-
OUT+
OUT-
E8156
LIMIT(V(%IN+, %IN-), 0, 0.18)
0
0
IN+
IN-
OUT+
OUT-
E8157
LIMIT(V(%IN+, %IN-), 0, 0.09)
U8166
2AND_TB67S
IN+
IN-
OUT+
OUT-
EBB_8134
IF(V(CW0, 0)>800m, V(8AB5, 0), V(8A5, 0))
8BB_Fall6
U8167
2AND_TB67S
0 0
0
0
- 8. UPnPC-U16STP Block (Equivalent Circuit)
8Copyright (C) Siam Bee Technologies 2016
U16STP
16ST_TB67S
16_Ref _A
16_Ref _BB
16_Ref _B
16_Ref _AB
MO_1_16
16_A
RST
16_AB
16_B
16_BB
CLK0
CW0
IN+
IN-
OUT+
OUT-
E_16128
IF(V(CW0, 0)>800m, V(16B10, 0), V(16BB10, 0))
0
IN+
IN-
OUT+
OUT-
E16156
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E_16129
IF(V(CW0, 0)>800m, V(16B11, 0), V(16BB11, 0))
0
0
IN+
IN-
OUT+
OUT-
E_16138
IF(V(CW0, 0)>800m, V(16A8, 0), V(16AB8, 0))
0
16AB_Rise3
IN+
IN-
OUT+
OUT-
E16157
LIMIT(V(%IN+, %IN-), 0, 0.09)
IN+
IN-
OUT+
OUT-
E16122
LIMIT(V(%IN+, %IN-), 0, 0.09)
CW0
16BB_Rise4
IN+
IN-
OUT+
OUT-
E_16130
IF(V(CW0, 0)>800m, V(16B3, 0), V(16BB3, 0))
U16155
2AND_TB67S
U16214
2AND_TB67S
U16156
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16214
LIMIT(V(%IN+, %IN-), 0, 0.1)
0
0
0
0
IN+
IN-
OUT+
OUT-
E16222
LIMIT(V(%IN+, %IN-), 0, 0.09)
16A_Fall15
0
0
16AB_Fall14
IN+
IN-
OUT+
OUT-
ESUM185
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16223
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
00
C172
1nF
IN+
IN-
OUT+
OUT-
E16224
LIMIT(V(%IN+, %IN-), 0, 0.09)
16AB_Fall9
0
0
0
0
0
0
16AB_Fall10
16AB_Fall8
U16117
2AND_TB67S
16A13
0
0
0
U16172
2AND_TB67S
0
R148 1k
0
0
16AB_Fall11
0
0
U10088
DFF_TB67S
CLK
D
RS
QQB
0
0
0
R149 1k
0
U16173
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16225
LIMIT(V(%IN+, %IN-), 0, 0.08)
16AB_Fall12
0
C173
1nF
0
16AB_Fall13
0
U16174
2AND_TB67S
0
U16215
2AND_TB67S
0
00
IN+
IN-
OUT+
OUT-
ESUM186
V(16BB_Fall9)+V(16BB_Fall10)+V(16BB_Fall11)+V(16BB_Fall12)
IN+
IN-
OUT+
OUT-
E16226
LIMIT(V(%IN+, %IN-), 0, 0.1)
U16175
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16227
LIMIT(V(%IN+, %IN-), 0, 0.07)
IN+
IN-
OUT+
OUT-
E16228
LIMIT(V(%IN+, %IN-), 0, 0.09)
IN+
IN-
OUT+
OUT-
E_16139
IF(V(CW0, 0)>800m, V(16A9, 0), V(16AB9, 0))
IN+
IN-
OUT+
OUT-
E16229
LIMIT(V(%IN+, %IN-), 0, 0.04)
16_Ref _BB
0
U16157
2AND_TB67S
0
MO_1_16
IN+
IN-
OUT+
OUT-
ESUM187
V(16BB_Fall13)+V(16BB_Fall14)+V(16BB_Fall15)
U16158
2AND_TB67S
U16159
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16140
IF(V(CW0, 0)>800m, V(16A10, 0), V(16AB10, 0))
16B_Rise3
U16160
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM188
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E_16141
IF(V(CW0, 0)>800m, V(16A11, 0), V(16AB11, 0))
IN+
IN-
OUT+
OUT-
E_16131
IF(V(CW0, 0)>800m, V(16B4, 0), V(16BB4, 0))
0
0
16BB12
0
0
0
U16161
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16142
IF(V(CW0, 0)>800m, V(16A3, 0), V(16AB3, 0))
16AB_Rise13
C174
1nF
0
IN+
IN-
OUT+
OUT-
ESUM189
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16123
LIMIT(V(%IN+, %IN-), 0, 0.02)
00
IN+
IN-
OUT+
OUT-
E16134
LIMIT(V(%IN+, %IN-), 0, 0.09)
16AB_Rise9
IN+
IN-
OUT+
OUT-
E16124
LIMIT(V(%IN+, %IN-), 0, 0.06)
U16176
2AND_TB67S
C175
1nF
00
16B_Fall14
R150 1k
IN+
IN-
OUT+
OUT-
E16125
LIMIT(V(%IN+, %IN-), 0, 0.02)
U16177
2AND_TB67S
16AB_Rise14
IN+
IN-
OUT+
OUT-
ESUM190
LIMIT(V(%IN+)+V(%IN-), 0, 1)
00
IN+
IN-
OUT+
OUT-
E16233
LIMIT(V(%IN+, %IN-), 0, 0.09)
IN+
IN-
OUT+
OUT-
E16126
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
0
IN+
IN-
OUT+
OUT-
E16234
LIMIT(V(%IN+, %IN-), 0, 0.09)
U16119
2AND_TB67S
R151 1k
IN+
IN-
OUT+
OUT-
E16127
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
16AB_Rise10
IN+
IN-
OUT+
OUT-
E16235
LIMIT(V(%IN+, %IN-), 0, 0.09)
16AB_Rise8
16AB4
16B_Fall9
16BB1
0
U10077
DFF_TB67S
CLK
D
RS
QQB
0
C176
1nF
IN+
IN-
OUT+
OUT-
E16256
LIMIT(V(%IN+, %IN-), 0, 0.04)
16AB_Rise11
0
16B_Fall8
0
16B_Fall10
IN+
IN-
OUT+
OUT-
E16128
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
ESUM191
V(16BB_Fall1)+V(16BB_Fall2)+V(16BB_Fall3)+V(16BB_Fall4)
00
0
0
16AB_Rise12
IN+
IN-
OUT+
OUT-
E16129
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
0
00
U16101
2AND_TB67S
0
16B_Fall11
0
IN+
IN-
OUT+
OUT-
ESUM192
V(16BB_Fall5)+V(16BB_Fall6)+V(16BB_Fall7)+V(16BB_Fall8)
IN+
IN-
OUT+
OUT-
E16130
LIMIT(V(%IN+, %IN-), 0, 0.09)
16AB_Rise4
U16162
2AND_TB67S
16BB5
00
C177
1nF
16BB4
16BB6
16BB7
0
U10116
DFF_TB67S
CLK
D
RS
QQB
0
R152 1k
IN+
IN-
OUT+
OUT-
E16236
LIMIT(V(%IN+, %IN-), 0, 0.08)
U10127
DFF_TB67S
CLK
D
RS
QQB
16B_Fall12
U10105
DFF_TB67S
CLK
D
RS
QQB
0
IN+
IN-
OUT+
OUT-
ESUM193
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0 0
16B_Fall13
0
C178
1nF
IN+
IN-
OUT+
OUT-
E16106
LIMIT(V(%IN+, %IN-), 0, 0.09)16A5
0
16A_Rise5
IN+
IN-
OUT+
OUT-
E_16114
IF(V(CW0, 0)>800m, V(16BB15, 0), V(16B15, 0))
00
00
16AB7
R153 1k
0
0
IN+
IN-
OUT+
OUT-
E16237
LIMIT(V(%IN+, %IN-), 0, 0.1)
0
0
C179
1nF
RST
0
CLK0
IN+
IN-
OUT+
OUT-
E16238
LIMIT(V(%IN+, %IN-), 0, 0.07)
16B6
0
U10114
DFF_TB67S
CLK
D
RS
QQB
CLK0
RST
IN+
IN-
OUT+
OUT-
ESUM194
V(16BB_Rise0)+V(16BB_Rise1)+V(16BB_Rise2)+V(16BB_Rise3)
U10074
DFF_TB67S
CLK
D
RS
QQB
16_BB
0
U10094
DFF_TB67S
CLK
D
RS
QQB
0
0
16B5
IN+
IN-
OUT+
OUT-
E16239
LIMIT(V(%IN+, %IN-), 0, 0.09)
U16179
2AND_TB67S
RST
0
CLK0
0
U10125
DFF_TB67S
CLK
D
RS
QQB
RST
16B4
IN+
IN-
OUT+
OUT-
E16240
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
00
16B7
IN+
IN-
OUT+
OUT-
ESUM195
V(16BB_Rise4)+V(16BB_Rise5)+V(16BB_Rise6)+V(16BB_Rise7)
RST
16A7
CLK0
0
0
0
U16178
2AND_TB67S
CLK0
RST
0
16AB5
U16180
2AND_TB67S
0 0
RST
16AB4
C180
1nF
CLK0
U16181
2AND_TB67S
RST
16AB6
CLK0
0
RST
0
IN+
IN-
OUT+
OUT-
E_16143
IF(V(CW0, 0)>800m, V(16A4, 0), V(16AB4, 0))
CLK0
IN+
IN-
OUT+
OUT-
ESUM196
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U16107
2AND_TB67S
16B_Rise13
16AB2
0
0
RST
0
0
16AB0
0
U10103
DFF_TB67S
CLK
D
RS
QQB
CLK0
0
RST
0
CLK0
U16182
2AND_TB67S
U10083
DFF_TB67S
CLK
D
RS
QQB
R154 1k
16AB1
RST
0
IN+
IN-
OUT+
OUT-
E16135
LIMIT(V(%IN+, %IN-), 0, 0.02)
16BB2
CLK0
IN+
IN-
OUT+
OUT-
ESUM197
LIMIT(V(%IN+)+V(%IN-), 0, 1)
16BB0
0
16B_Rise9
RST
0
0
CLK0
0
R155 1k
0
C181
1nF
CLK0
RST
IN+
IN-
OUT+
OUT-
E16204
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
16BB1
16BB3
RST
IN+
IN-
OUT+
OUT-
E16136
LIMIT(V(%IN+, %IN-), 0, 0.06)
CLK0
16B_Rise14
16AB3
00
IN+
IN-
OUT+
OUT-
ESUM198
V(16BB_Rise8)+V(16BB_Rise9)+V(16BB_Rise10)+V(16BB_Rise11)
RST
0
CLK0
16BB3
C182
1nF
0
U10136
DFF_TB67S
CLK
D
RS
QQB
RST
16A3
CLK0
16AB12
RST
0
0
CLK0
16B3
IN+
IN-
OUT+
OUT-
E16137
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
RST
CLK0
0
U16216
2AND_TB67S
16AB8
16A2
RST
0
16A0
16AB14
CLK0
00
IN+
IN-
OUT+
OUT-
ESUM199
V(16BB_Rise12)+V(16BB_Rise13)+V(16BB_Rise14)
RST
0
16A1
IN+
IN-
OUT+
OUT-
E_16160
IF(V(CW0, 0)>800m, V(16AB5, 0), V(16A5, 0))
CLK0
0
IN+
IN-
OUT+
OUT-
E16138
LIMIT(V(%IN+, %IN-), 0, 0.06)
RST
CLK0
16B_Rise10
16BB_Fall15
0
16B2
RST
0
0
C183
1nF
16B0
U16217
2AND_TB67S
CLK0
0
CLK0
RST
IN+
IN-
OUT+
OUT-
E16257
LIMIT(V(%IN+, %IN-), 0, 0.1)
16B1
IN+
IN-
OUT+
OUT-
E16139
LIMIT(V(%IN+, %IN-), 0, 0.05)
RST
0
CLK0
16B_Rise8
16BB4
CLK0
RST
0 0
16B_Rise11
16BB5
RST
0
16A6
U10092
DFF_TB67S
CLK
D
RS
QQB
CLK0
RST
0
U16218
2AND_TB67S
CLK0
16A5
0
0
0
00
U16219
2AND_TB67S
RST
CLK0
0
RST
0
16B_Rise12
IN+
IN-
OUT+
OUT-
E16102
LIMIT(V(%IN+, %IN-), 0, 0.1)
0
0
16A4
IN+
IN-
OUT+
OUT-
E16140
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
16A1
16BB_Rise5
16A_Rise1
0
16BB6
RST
0
IN+
IN-
OUT+
OUT-
E_16105
IF(V(CW0, 0)>800m, V(16BB6, 0), V(16B6, 0))
IN+
IN-
OUT+
OUT-
E16141
LIMIT(V(%IN+, %IN-), 0, 0.04)
16BB7
IN+
IN-
OUT+
OUT-
E16158
LIMIT(V(%IN+, %IN-), 0, 0.09)
CLK0
RST
0
0
16B_Rise4
CLK0
0
IN+
IN-
OUT+
OUT-
E16142
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10122
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E16207
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10111
DFF_TB67S
CLK
D
RS
QQB
U16183
2AND_TB67S
U16113
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16208
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10133
DFF_TB67S
CLK
D
RS
QQB
U16220
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16161
IF(V(CW0, 0)>800m, V(16AB15, 0), V(16A15, 0))
U10100
DFF_TB67S
CLK
D
RS
QQB
16A_Fall14
16A14
0
0
RST
0
0
16BB14
CLK0
IN+
IN-
OUT+
OUT-
E16209
LIMIT(V(%IN+, %IN-), 0, 0.09)
16BB15
RST
CLK0
0
0
CLK0
RST
0
0
IN+
IN-
OUT+
OUT-
ESUM170
LIMIT(V(%IN+)+V(%IN-), 0, 1)
16AB15
0
IN+
IN-
OUT+
OUT-
E16258
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
CLK0
RST
16A_Fall9
16BB_Rise1
16B14
RST
0
0
C160
1nF
16B15
CLK0
0
IN+
IN-
OUT+
OUT-
E16159
LIMIT(V(%IN+, %IN-), 0, 0.1)
16A_Fall8
U10089
DFF_TB67S
CLK
D
RS
QQB
16A_Fall10
00
0
16A15
R140 1k
RST
U16221
2AND_TB67S
CLK0
0
CLK0
RST
16AB14
0
0
CLK0
RST
0
R141 1k
16AB1
IN+
IN-
OUT+
OUT-
E_16162
IF(V(CW0, 0)>800m, V(16AB6, 0), V(16A6, 0))
U10078
DFF_TB67S
CLK
D
RS
QQB
U16120
2AND_TB67S
0
0
0
U16102
2AND_TB67S
0
0
16A14
U16222
2AND_TB67S
U10117
DFF_TB67S
CLK
D
RS
QQB
16A_Fall11
0
U16224
2AND_TB67S
U10106
DFF_TB67S
CLK
D
RS
QQB
U16223
2AND_TB67S
U10128
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E16210
LIMIT(V(%IN+, %IN-), 0, 0.08)
U10075
DFF_TB67S
CLK
D
RS
QQB
C161
1nF
U10095
DFF_TB67S
CLK
D
RS
QQB
0
IN+
IN-
OUT+
OUT-
E16259
LIMIT(V(%IN+, %IN-), 0, 0.06)
1/16 step (H, H, L)
16BB13
IN+
IN-
OUT+
OUT-
ESUM171
V(16B_Fall9)+V(16B_Fall10)+V(16B_Fall11)+V(16B_Fall12)
U16108
2AND_TB67S
16A_Fall12
U10084
DFF_TB67S
CLK
D
RS
QQB
0
16_Ref _B
IN+
IN-
OUT+
OUT-
E16205
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
16BB9
0
U16184
2AND_TB67S
16AB5
0 0
16A_Fall13
16A6
0
16BB_Rise6
IN+
IN-
OUT+
OUT-
E16107
LIMIT(V(%IN+, %IN-), 0, 0.07)
0
IN+
IN-
OUT+
OUT-
ESUM172
V(16B_Fall13)+V(16B_Fall14)+V(16B_Fall15)
16A_Rise6
IN+
IN-
OUT+
OUT-
E_16106
IF(V(CW0, 0)>800m, V(16BB7, 0), V(16B7, 0))
IN+
IN-
OUT+
OUT-
E16160
LIMIT(V(%IN+, %IN-), 0, 0.07)
16AB10
16AB9
U16001
2AND_TB67S
00
16_A
0
IN+
IN-
OUT+
OUT-
E_16163
IF(V(CW0, 0)>800m, V(16AB7, 0), V(16A7, 0))
IN+
IN-
OUT+
OUT-
ESUM173
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E_16001
IF(V(CW0, 0)>800m, V(16_BB, 0), V(16_B, 0))
0
U10112
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E16211
LIMIT(V(%IN+, %IN-), 0, 0.1)
C162
1nF
U16114
2AND_TB67S
0
0
0
IN+
IN-
OUT+
OUT-
E16212
LIMIT(V(%IN+, %IN-), 0, 0.07)
U10123
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E16213
LIMIT(V(%IN+, %IN-), 0, 0.09)
IN+
IN-
OUT+
OUT-
ESUM174
LIMIT(V(%IN+)+V(%IN-), 0, 1)
00
U16105
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16101
LIMIT(V(%IN+, %IN-), 0, 0.1)16A0
C163
1nF
16A_Fall7
R142 1k
0 0
IN+
IN-
OUT+
OUT-
ESUM175
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U10081
DFF_TB67S
CLK
D
RS
QQB
0
0
U10134
DFF_TB67S
CLK
D
RS
QQB
R143 1k
U10101
DFF_TB67S
CLK
D
RS
QQB
0
0
0
16_B
IN+
IN-
OUT+
OUT-
E16202
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
IN+
IN-
OUT+
OUT-
E16241
LIMIT(V(%IN+, %IN-), 0, 0.04)
16A_Fall2
C164
1nF
IN+
IN-
OUT+
OUT-
E_16100
IF(V(CW0, 0)>800m, V(16BB1, 0), V(16B1, 0))
0
00
IN+
IN-
OUT+
OUT-
ESUM176
V(16B_Fall1)+V(16B_Fall2)+V(16B_Fall3)+V(16B_Fall4)
U10090
DFF_TB67S
CLK
D
RS
QQB
0
0
16A_Fall1
IN+
IN-
OUT+
OUT-
ESUM177
V(16B_Fall5)+V(16B_Fall6)+V(16B_Fall7)+V(16B_Fall8)
0
16A_Fall3
0
0
C165
1nF
0
R144 1k
0
0
0
IN+
IN-
OUT+
OUT-
ESUM178
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
IN+
IN-
OUT+
OUT-
E16200
LIMIT(V(%IN+, %IN-), 0, 0.02)
16AB3
0
16BB11
C166
1nF
0
0
R145 1k
0
0
16A12
16BB2
0
C167
1nF0
0
IN+
IN-
OUT+
OUT-
ESUM179
V(16B_Rise0)+V(16B_Rise1)+V(16B_Rise2)+V(16B_Rise3)
IN+
IN-
OUT+
OUT-
E16103
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
16A2
0
0
IN+
IN-
OUT+
OUT-
E_16116
IF(V(CW0, 0)>800m, V(16_B, 0), V(16_BB, 0))
IN+
IN-
OUT+
OUT-
ESUM180
V(16B_Rise4)+V(16B_Rise5)+V(16B_Rise6)+V(16B_Rise7)
16A_Rise2
16_A
0
0
U10079
DFF_TB67S
CLK
D
RS
QQB
16B3
C168
1nF
U16103
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM181
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U16121
2AND_TB67S
U16122
2AND_TB67S
0
0
0
R146 1k
U16123
2AND_TB67S
U16124
2AND_TB67S
U16129
2AND_TB67S
16A_Fall4
IN+
IN-
OUT+
OUT-
ESUM182
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
00
C169
1nF
0
0
0
U16131
2AND_TB67S
16A_Fall5
0
R147 1k
0
0
C170
1nF
0
U16132
2AND_TB67S
0
U10118
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
ESUM183
V(16B_Rise8)+V(16B_Rise9)+V(16B_Rise10)+V(16B_Rise11)
0
16A_Fall6
U16185
2AND_TB67S
0 0
IN+
IN-
OUT+
OUT-
ESUM184
V(16B_Rise12)+V(16B_Rise13)+V(16B_Rise14)
U10107
DFF_TB67S
CLK
D
RS
QQB
0
IN+
IN-
OUT+
OUT-
E_16144
IF(V(CW0, 0)>800m, V(16A5, 0), V(16AB5, 0))
U10129
DFF_TB67S
CLK
D
RS
QQB
16B_Fall15
C171
1nF
U16186
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E16242
LIMIT(V(%IN+, %IN-), 0, 0.1)
16A_Rise0
U10120
DFF_TB67S
CLK
D
RS
QQB
U10076
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E_16101
IF(V(CW0, 0)>800m, V(16BB2, 0), V(16B2, 0))
00
U16187
2AND_TB67S
U10096
DFF_TB67S
CLK
D
RS
QQB
U10109
DFF_TB67S
CLK
D
RS
QQB
U16109
2AND_TB67S
U10085
DFF_TB67S
CLK
D
RS
QQB
U16188
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16206
LIMIT(V(%IN+, %IN-), 0, 0.06)
IN+
IN-
OUT+
OUT-
E_16103
IF(V(CW0, 0)>800m, V(16BB4, 0), V(16B4, 0))
16AB2
16B_Rise5
16AB11
0
U16115
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16143
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10113
DFF_TB67S
CLK
D
RS
QQB
0
U10124
DFF_TB67S
CLK
D
RS
QQB
0
U10131
DFF_TB67S
CLK
D
RS
QQB
U10102
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E_16145
IF(V(CW0, 0)>800m, V(16A15, 0), V(16AB15, 0))
U10135
DFF_TB67S
CLK
D
RS
QQB
U16189
2AND_TB67S
0
16BB14
0
16B_Rise1
IN+
IN-
OUT+
OUT-
E16243
LIMIT(V(%IN+, %IN-), 0, 0.05)
U16004
2AND_TB67S
0
16_BB
16A11
0
IN+
IN-
OUT+
OUT-
E16144
LIMIT(V(%IN+, %IN-), 0, 0.1)
0
IN+
IN-
OUT+
OUT-
E_16004
IF(V(CW0, 0)>800m, V(16_AB, 0), V(16_A, 0))
0
U16111
2AND_TB67S
U16194
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16146
IF(V(CW0, 0)>800m, V(16A6, 0), V(16AB6, 0))
0
U16190
2AND_TB67S
0
16BB_Fall7
IN+
IN-
OUT+
OUT-
E16146
LIMIT(V(%IN+, %IN-), 0, 0.1)
U10098
DFF_TB67S
CLK
D
RS
QQB
U16191
2AND_TB67S
16BB0
0
IN+
IN-
OUT+
OUT-
E16109
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
16A_Rise13
U16192
2AND_TB67S
0
0
0
16BB_Fall2
0
0
0
U16193
2AND_TB67S
16A9
0
0
IN+
IN-
OUT+
OUT-
E16244
LIMIT(V(%IN+, %IN-), 0, 0.06)
IN+
IN-
OUT+
OUT-
E16108
LIMIT(V(%IN+, %IN-), 0, 0.08)
IN+
IN-
OUT+
OUT-
E16110
LIMIT(V(%IN+, %IN-), 0, 0.06)
U10091
DFF_TB67S
CLK
D
RS
QQB
16A_Rise9
16B_Rise6
16BB_Fall1
16A7
00
0
0
16A_Rise7
0
16BB_Fall3
IN+
IN-
OUT+
OUT-
E16145
LIMIT(V(%IN+, %IN-), 0, 0.07)
IN+
IN-
OUT+
OUT-
E_16148
IF(V(CW0, 0)>800m, V(16AB1, 0), V(16A1, 0))
16B4
16B12
IN+
IN-
OUT+
OUT-
E_16147
IF(V(CW0, 0)>800m, V(16A7, 0), V(16AB7, 0))
0
IN+
IN-
OUT+
OUT-
E16111
LIMIT(V(%IN+, %IN-), 0, 0.02)
0 0
16A_Rise14
16B5
16B7
0
16B1
16B6
0
0 0
0
16B8
16B13
IN+
IN-
OUT+
OUT-
E16245
LIMIT(V(%IN+, %IN-), 0, 0.02)
16B9
16B11
16B10
0
0
0
16B2
16A8
00
IN+
IN-
OUT+
OUT-
E16112
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
0
IN+
IN-
OUT+
OUT-
E16147
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
IN+
IN-
OUT+
OUT-
E_16149
IF(V(CW0, 0)>800m, V(16_A, 0), V(16_AB, 0))
IN+
IN-
OUT+
OUT-
E16113
LIMIT(V(%IN+, %IN-), 0, 0.05)16A10
16BB_Rise2
16_BB
16A_Rise10
U16195
2AND_TB67S
U10087
DFF_TB67S
CLK
D
RS
QQB
U16196
2AND_TB67S
16A_Rise8
U16198
2AND_TB67S
0
U16197
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
ESUM155
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U16199
2AND_TB67S
16BB_Fall4
0
C148
1nF
0
0
R132 1k
16BB_Fall5
0
0
0
0
R133 1k
0
0
16A_Rise11
0
0
0
16BB_Fall6
IN+
IN-
OUT+
OUT-
E16115
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
U10080
DFF_TB67S
CLK
D
RS
QQB
00
C149
1nF
U16104
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16116
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
IN+
IN-
OUT+
OUT-
E16201
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
ESUM156
V(16AB_Fall9)+V(16AB_Fall10)+V(16AB_Fall11)+V(16AB_Fall12)
16A_Rise12
0
0
U16116
2AND_TB67S
0
16BB_Rise0
IN+
IN-
OUT+
OUT-
ESUM157
V(16AB_Fall13)+V(16AB_Fall14)+V(16AB_Fall15)
0
16_Ref _AB
IN+
IN-
OUT+
OUT-
E_16150
IF(V(CW0, 0)>800m, V(16AB2, 0), V(16A2, 0))
0
U16200
2AND_TB67S
00
IN+
IN-
OUT+
OUT-
ESUM158
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E_16108
IF(V(CW0, 0)>800m, V(16BB13, 0), V(16B13, 0))
C150
1nF
IN+
IN-
OUT+
OUT-
E_16107
IF(V(CW0, 0)>800m, V(16BB12, 0), V(16B12, 0))
IN+
IN-
OUT+
OUT-
E_16109
IF(V(CW0, 0)>800m, V(16BB14, 0), V(16B14, 0))
0
0
IN+
IN-
OUT+
OUT-
E16105
LIMIT(V(%IN+, %IN-), 0, 0.09)
IN+
IN-
OUT+
OUT-
E16246
LIMIT(V(%IN+, %IN-), 0, 0.06)
16A4
0
IN+
IN-
OUT+
OUT-
ESUM159
LIMIT(V(%IN+)+V(%IN-), 0, 1)
16AB6
0
16A_Rise4
U16201
2AND_TB67S
C151
1nF
R134 1k
IN+
IN-
OUT+
OUT-
ESUM160
LIMIT(V(%IN+)+V(%IN-), 0, 1)
16BB_Rise7
0
0
R135 1k
00
0
U16202
2AND_TB67S
0
0
U16118
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16110
IF(V(CW0, 0)>800m, V(16BB8, 0), V(16B8, 0))
IN+
IN-
OUT+
OUT-
E16215
LIMIT(V(%IN+, %IN-), 0, 0.04)
16AB9
IN+
IN-
OUT+
OUT-
E16148
LIMIT(V(%IN+, %IN-), 0, 0.08)
0
C152
1nF
16AB7
0
U16002
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
ESUM161
V(16AB_Fall1)+V(16AB_Fall2)+V(16AB_Fall3)+V(16AB_Fall4)
16BB9
IN+
IN-
OUT+
OUT-
E_16151
IF(V(CW0, 0)>800m, V(16AB12, 0), V(16A12, 0))
0
0
IN+
IN-
OUT+
OUT-
E16247
LIMIT(V(%IN+, %IN-), 0, 0.02)
RST
0
0
16_AB
CLK0
IN+
IN-
OUT+
OUT-
ESUM162
V(16AB_Fall5)+V(16AB_Fall6)+V(16AB_Fall7)+V(16AB_Fall8)
0
0
16A9
C153
1nF
IN+
IN-
OUT+
OUT-
E_16152
IF(V(CW0, 0)>800m, V(16AB13, 0), V(16A13, 0))
0
0
0
0
0
R136 1k
RST
IN+
IN-
OUT+
OUT-
E_16002
IF(V(CW0, 0)>800m, V(16_B, 0), V(16_BB, 0))
0
0
IN+
IN-
OUT+
OUT-
ESUM163
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
C154
1nF
RST
CLK0
0
R137 1k
IN+
IN-
OUT+
OUT-
E_16153
IF(V(CW0, 0)>800m, V(16AB14, 0), V(16A14, 0))
IN+
IN-
OUT+
OUT-
ESUM150
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U16142
2AND_TB67S
0
C155
1nF
0
0
C145
1nF
0
0
16B9
IN+
IN-
OUT+
OUT-
ESUM164
V(16AB_Rise0)+V(16AB_Rise1)+V(16AB_Rise2)+V(16AB_Rise3)
0
U16125
2AND_TB67S
0
0
0
0
0
CLK0
0
0
IN+
IN-
OUT+
OUT-
ESUM165
V(16AB_Rise4)+V(16AB_Rise5)+V(16AB_Rise6)+V(16AB_Rise7)
R130 1k
0
0
0
IN+
IN-
OUT+
OUT-
E_16154
IF(V(CW0, 0)>800m, V(16AB8, 0), V(16A8, 0))
0
C156
1nF
U16126
2AND_TB67S
RST
0
CLK0
IN+
IN-
OUT+
OUT-
E16119
LIMIT(V(%IN+, %IN-), 0, 0.1)
IN+
IN-
OUT+
OUT-
ESUM166
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U16127
2AND_TB67S
R131 1k
0
16A8
IN+
IN-
OUT+
OUT-
E_16111
IF(V(CW0, 0)>800m, V(16BB9, 0), V(16B9, 0))
0
R138 1k
U16128
2AND_TB67S
16AB_Fall7
0
0
0
RST
0
IN+
IN-
OUT+
OUT-
ESUM167
LIMIT(V(%IN+)+V(%IN-), 0, 1)
16AB0
CLK0
0
IN+
IN-
OUT+
OUT-
E_16112
IF(V(CW0, 0)>800m, V(16BB10, 0), V(16B10, 0))
16B8
C157
1nF
0
R139 1k
0
0
0
0
0
IN+
IN-
OUT+
OUT-
E_16113
IF(V(CW0, 0)>800m, V(16BB11, 0), V(16B11, 0))
RST
0
0
C158
1nF
16AB13
C146
1nF
0
0
IN+
IN-
OUT+
OUT-
ESUM168
V(16AB_Rise8)+V(16AB_Rise9)+V(16AB_Rise10)+V(16AB_Rise11)
16BB10
0
0
0
0
U10115
DFF_TB67S
CLK
D
RS
QQB
CLK0
0
0
0
16B14
U16134
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM151
V(16A_Fall9)+V(16A_Fall10)+V(16A_Fall11)+V(16A_Fall12)
U16203
2AND_TB67S
16BB11
IN+
IN-
OUT+
OUT-
ESUM169
V(16AB_Rise12)+V(16AB_Rise13)+V(16AB_Rise14)
U16003
2AND_TB67S
0
U10126
DFF_TB67S
CLK
D
RS
QQB
0
0
0
0
0
16_B
CLK0
RST
IN+
IN-
OUT+
OUT-
E_16115
IF(V(CW0, 0)>800m, V(16B5, 0), V(16BB5, 0))
U16204
2AND_TB67S
C159
1nF
16A12
U16130
2AND_TB67S U16205
2AND_TB67S
0
16AB_Fall2
RST
0
16AB_Fall15
IN+
IN-
OUT+
OUT-
E_16003
IF(V(CW0, 0)>800m, V(16_A, 0), V(16_AB, 0))
IN+
IN-
OUT+
OUT-
E16216
LIMIT(V(%IN+, %IN-), 0, 0.1)
U16106
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E_16155
IF(V(CW0, 0)>800m, V(16AB9, 0), V(16A9, 0))
IN+
IN-
OUT+
OUT-
ESUM152
V(16A_Fall13)+V(16A_Fall14)+V(16A_Fall15)
0
U16163
2AND_TB67S
0
U10104
DFF_TB67S
CLK
D
RS
QQB
0
16_Ref _A
U16135
2AND_TB67S
CLK0
00
0
RST
U16136
2AND_TB67S
U16206
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16120
IF(V(CW0, 0)>800m, V(16B1, 0), V(16BB1, 0))
C147
1nF
IN+
IN-
OUT+
OUT-
E_16156
IF(V(CW0, 0)>800m, V(16AB10, 0), V(16A10, 0))
16AB13
16A11
16AB_Fall1
IN+
IN-
OUT+
OUT-
E16131
LIMIT(V(%IN+, %IN-), 0, 0.1)
00
0
0
UMO_104
2AND_TB67S
CLK0
0
0
16_B
16B0
RST
0
16B_Fall7
IN+
IN-
OUT+
OUT-
ESUM153
LIMIT(V(%IN+)+V(%IN-), 0, 1)
UEX1016
EX_OR_TB67S
A
B
O
CLK0
0
IN+
IN-
OUT+
OUT-
E16114
LIMIT(V(%IN+, %IN-), 0, 0.09)
16B0
0
16B12
16BB_Rise3
16AB_Fall3
0
0
0
0
0
16AB_Rise5
CLK0
RST
00
16B11
16A10
U10119
DFF_TB67S
CLK
D
RS
QQB
CLK0
RST
IN+
IN-
OUT+
OUT-
E_16117
IF(V(CW0, 0)>800m, V(16B15, 0), V(16BB15, 0))
0
IN+
IN-
OUT+
OUT-
E_16157
IF(V(CW0, 0)>800m, V(16AB11, 0), V(16A11, 0))
0
0
RST
0
16A3
0 0
0
IN+
IN-
OUT+
OUT-
ESUM140
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
IN+
IN-
OUT+
OUT-
E_16158
IF(V(CW0, 0)>800m, V(16AB3, 0), V(16A3, 0))
RST
16B10
16BB12
IN+
IN-
OUT+
OUT-
E16104
LIMIT(V(%IN+, %IN-), 0, 0.09)
CLK0
RST
16A_Rise3
U16137
2AND_TB67S
CLK0
0
RST
0
U16207
2AND_TB67S
C136
1nF
0 0
U10082
DFF_TB67S
CLK
D
RS
QQB
CLK0
0
IN+
IN-
OUT+
OUT-
E16149
LIMIT(V(%IN+, %IN-), 0, 0.09)
U10137
DFF_TB67S
CLK
D
RS
QQB
16BB13
U10108
DFF_TB67S
CLK
D
RS
QQB
0
IN+
IN-
OUT+
OUT-
E16217
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
CLK0
16_AB
16B13
16B_Fall2
IN+
IN-
OUT+
OUT-
ESUM141
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
U16208
2AND_TB67S
R125 1k
RST
0
16BB_Fall14
IN+
IN-
OUT+
OUT-
E16117
LIMIT(V(%IN+, %IN-), 0, 0.1)
0
16A13
CLK0
RST
0
16B_Fall1
R124 1k
0
16AB_Rise1
IN+
IN-
OUT+
OUT-
E16248
LIMIT(V(%IN+, %IN-), 0, 0.09)
CLK0
16AB11
IN+
IN-
OUT+
OUT-
E16219
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
U10130
DFF_TB67S
CLK
D
RS
QQB
CLK0
RST
U16138
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16132
IF(V(CW0, 0)>800m, V(16A1, 0), V(16AB1, 0))
0
IN+
IN-
OUT+
OUT-
E_16118
IF(V(CW0, 0)>800m, V(16B6, 0), V(16BB6, 0))
0
IN+
IN-
OUT+
OUT-
E16203
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
16B_Fall3
RST
0
0
U16139
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E16249
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
0
0
16AB10
16BB_Fall9
C137
1nF
RST
CLK0
0
U16140
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16250
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
IN+
IN-
OUT+
OUT-
ESUM142
V(16A_Fall1)+V(16A_Fall2)+V(16A_Fall3)+V(16A_Fall4)
U10093
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E_16102
IF(V(CW0, 0)>800m, V(16BB3, 0), V(16B3, 0))
0
0
16AB12
16BB_Fall8
CLK0
0
0
U16141
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16120
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
0
0
IN+
IN-
OUT+
OUT-
ESUM143
V(16A_Fall5)+V(16A_Fall6)+V(16A_Fall7)+V(16A_Fall8)
RST
0
16BB_Fall10
CLK0
IN+
IN-
OUT+
OUT-
E_16121
IF(V(CW0, 0)>800m, V(16_BB, 0), V(16_B, 0))
IN+
IN-
OUT+
OUT-
E16218
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
0
0
16AB8
16AB_Rise2
16_AB
0
0
C138
1nF
00
0
IN+
IN-
OUT+
OUT-
E16230
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
0
16BB8
U16143
2AND_TB67S
CLK0
RST
16BB_Fall11
IN+
IN-
OUT+
OUT-
E16118
LIMIT(V(%IN+, %IN-), 0, 0.07)
R126 1k
U16145
2AND_TB67S
0
0
16AB_Rise6
RST
0
0
IN+
IN-
OUT+
OUT-
ESUM144
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
IN+
IN-
OUT+
OUT-
E_16119
IF(V(CW0, 0)>800m, V(16B7, 0), V(16BB7, 0))
0
0
U16144
2AND_TB67S
0
16BB_Fall12
U16146
2AND_TB67S
0
0
C139
1nF
0
U10097
DFF_TB67S
CLK
D
RS
QQB
0
U16147
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16251
LIMIT(V(%IN+, %IN-), 0, 0.08)
R127 1k
16BB_Fall13
0
16AB_Fall4
IN+
IN-
OUT+
OUT-
E16132
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
C140
1nF
16B_Rise2
0
0
00
IN+
IN-
OUT+
OUT-
E_16133
IF(V(CW0, 0)>800m, V(16_AB, 0), V(16_A, 0))
IN+
IN-
OUT+
OUT-
ESUM145
V(16A_Rise0)+V(16A_Rise1)+V(16A_Rise2)+V(16A_Rise3)
0
0
16_B
0
0
16AB_Fall5
U16164
2AND_TB67S
0
0
0
0
U16166
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16252
LIMIT(V(%IN+, %IN-), 0, 0.1)
0
U16110
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM146
V(16A_Rise4)+V(16A_Rise5)+V(16A_Rise6)+V(16A_Rise7)
U16165
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16254
LIMIT(V(%IN+, %IN-), 0, 0.09)
0
IN+
IN-
OUT+
OUT-
E16253
LIMIT(V(%IN+, %IN-), 0, 0.07)
16AB_Fall6
0
0
U16167
2AND_TB67S
C141
1nF
IN+
IN-
OUT+
OUT-
E16255
LIMIT(V(%IN+, %IN-), 0, 0.04)
0 0
16B_Fall4
U16209
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM154
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U16168
2AND_TB67S
0
0
0
U16211
2AND_TB67S
0
16AB_Rise0
U16210
2AND_TB67S
R128 1k
00
U16212
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM147
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E_16122
IF(V(CW0, 0)>800m, V(16B2, 0), V(16BB2, 0))
16B_Fall5
0
0
0
C142
1nF
16BB10
U16148
2AND_TB67S
00
16BB8
00
IN+
IN-
OUT+
OUT-
E16220
LIMIT(V(%IN+, %IN-), 0, 0.06)
IN+
IN-
OUT+
OUT-
E_16159
IF(V(CW0, 0)>800m, V(16AB4, 0), V(16A4, 0))
16BB_Rise13
U16149
2AND_TB67S
R129 1k
0
16B_Fall6
U16213
2AND_TB67S
0
C143
1nF0
0
00
16BB_Rise9
IN+
IN-
OUT+
OUT-
ESUM148
V(16A_Rise8)+V(16A_Rise9)+V(16A_Rise10)+V(16A_Rise11)
0
00
0
RST
16AB_Rise7
IN+
IN-
OUT+
OUT-
E16150
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
IN+
IN-
OUT+
OUT-
E16121
LIMIT(V(%IN+, %IN-), 0, 0.08)
U16150
2AND_TB67S
0
0
0
16_A
IN+
IN-
OUT+
OUT-
E16151
LIMIT(V(%IN+, %IN-), 0, 0.06)
IN+
IN-
OUT+
OUT-
ESUM149
V(16A_Rise12)+V(16A_Rise13)+V(16A_Rise14)
U16133
2AND_TB67S
16B_Rise0
00
0
IN+
IN-
OUT+
OUT-
E16221
LIMIT(V(%IN+, %IN-), 0, 0.02)
16BB_Rise14
C144
1nF
IN+
IN-
OUT+
OUT-
E_16134
IF(V(CW0, 0)>800m, V(16A2, 0), V(16AB2, 0))
IN+
IN-
OUT+
OUT-
E_16124
IF(V(CW0, 0)>800m, V(16B12, 0), V(16BB12, 0))
U10086
DFF_TB67S
CLK
D
RS
QQB
IN+
IN-
OUT+
OUT-
E_16123
IF(V(CW0, 0)>800m, V(16B13, 0), V(16BB13, 0))
IN+
IN-
OUT+
OUT-
E_16125
IF(V(CW0, 0)>800m, V(16B14, 0), V(16BB14, 0))
IN+
IN-
OUT+
OUT-
E16152
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
IN+
IN-
OUT+
OUT-
E16231
LIMIT(V(%IN+, %IN-), 0, 0.06)
U16169
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E_16104
IF(V(CW0, 0)>800m, V(16BB5, 0), V(16B5, 0))
0
0
0
0
IN+
IN-
OUT+
OUT-
E_16126
IF(V(CW0, 0)>800m, V(16B8, 0), V(16BB8, 0))
U16170
2AND_TB67S
U10121
DFF_TB67S
CLK
D
RS
QQB
0
16B_Rise7
0
CLK0
0
0
U10110
DFF_TB67S
CLK
D
RS
QQB
U16171
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16153
LIMIT(V(%IN+, %IN-), 0, 0.06)
0
0
16BB_Rise10
0
IN+
IN-
OUT+
OUT-
E16133
LIMIT(V(%IN+, %IN-), 0, 0.08)
0
0
16BB_Rise8
IN+
IN-
OUT+
OUT-
E16232
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
IN+
IN-
OUT+
OUT-
E16154
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
U10132
DFF_TB67S
CLK
D
RS
QQB
16BB_Rise11
IN+
IN-
OUT+
OUT-
E_16135
IF(V(CW0, 0)>800m, V(16A12, 0), V(16AB12, 0))
U16151
2AND_TB67S
00
0
0
IN+
IN-
OUT+
OUT-
E_16136
IF(V(CW0, 0)>800m, V(16A13, 0), V(16AB13, 0))
U16112
2AND_TB67S
U16153
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16155
LIMIT(V(%IN+, %IN-), 0, 0.04)
U16152
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16137
IF(V(CW0, 0)>800m, V(16A14, 0), V(16AB14, 0))
IN+
IN-
OUT+
OUT-
E_16127
IF(V(CW0, 0)>800m, V(16B9, 0), V(16BB9, 0))
16BB_Rise12
U16154
2AND_TB67S
U10099
DFF_TB67S
CLK
D
RS
QQB
0
0
0
0
0
- 9. UPnPC-U32STP Block (Equivalent Circuit)
9Copyright (C) Siam Bee Technologies 2016
U32STP
32ST_TB67S
MO_1_32
RST
32_A
32_AB
32_B
32_BB
CLK0
32_Ref _A
CW0
32_Ref _B
32_Ref _AB
32_Ref _BB
IN+
IN-
OUT+
OUT-
E16290
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
IN+
IN-
OUT+
OUT-
E16155
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16134
LIMIT(V(%IN+, %IN-), 0, 0.05)
32B3
32A7
AB_F7
C191
1nF
IN+
IN-
OUT+
OUT-
E_16151
IF(V(CW0, 0)>800m, V(32B29, 0), V(32BB29, 0))
RST
0
0
0
0
U32016
2AND_TB67S
CLK0
0
U32185
2AND_TB67S
32AB0
R126 1k
U32075
2AND_TB67S
U32222
2AND_TB67S
U10160
DFF_TB67S
CLK
D
R
S
QQB
U32006
2AND_TB67S
U10217
DFF_TB67S
CLK
D
R
S
QQB
0
0
IN+
IN-
OUT+
OUT-
ESUM208
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
0
U32102
2AND_TB67S
CLK0
0
0 U32225
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM144
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
32AB5
C204
1nF
R140 1k
0
BB_F26
AB_R24
IN+
IN-
OUT+
OUT-
E16289
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
0
0
C156
1nF
IN+
IN-
OUT+
OUT-
E16156
LIMIT(V(%IN+, %IN-), 0, 0.02)
32_BB
IN+
IN-
OUT+
OUT-
E16103
LIMIT(V(%IN+, %IN-), 0, 0.05)
U10176
DFF_TB67S
CLK
D
R
S
QQB
32BB5
IN+
IN-
OUT+
OUT-
E16269
LIMIT(V(%IN+, %IN-), 0, 0.01)
B_F15
32AB9
0
0
0
B_F2
00
0
0
R158 1k
C139
1nF
0
U32103
2AND_TB67S
U10246
DFF_TB67S
CLK
D
R
S
QQB
U10218
DFF_TB67S
CLK
D
R
S
QQB
AB_R22
0
0
U32226
2AND_TB67S
R169 1k
0
U32240
2AND_TB67S
R141 1k
0
R137 1k
0
R159 1k
0
0
IN+
IN-
OUT+
OUT-
ESUM245
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E_32007
IF(V(CW0, 0)>800m, V(32_AB, 0), V(32_A, 0))
R127 1k
RST
0
32BB9
IN+
IN-
OUT+
OUT-
E_32002
IF(V(CW0, 0)>800m, V(32_B, 0), V(32_BB, 0))
AB_R25
IN+
IN-
OUT+
OUT-
E_16152
IF(V(CW0, 0)>800m, V(32B28, 0), V(32BB28, 0))
0
0
A_R2
IN+
IN-
OUT+
OUT-
E16291
LIMIT(V(%IN+, %IN-), 0, 0.05)
32_A
0
IN+
IN-
OUT+
OUT-
E_16162
IF(V(CW0, 0)>800m, V(32A2, 0), V(32AB2, 0))
IN+
IN-
OUT+
OUT-
E_16140
IF(V(CW0, 0)>800m, V(32B10, 0), V(32BB10, 0))
U10219
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16328
LIMIT(V(%IN+, %IN-), 0, 0.02)
U32186
2AND_TB67S
BB_F27
B_F1
0
0
0
0
0
C140
1nF
CLK0
RST
0
0
0
U32104
2AND_TB67S
CLK0
0
0
IN+
IN-
OUT+
OUT-
ESUM165
V(A_R16)+V(A_R17)+V(A_R18)+V(A_R19)
U32227
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM223
V(B_R16)+V(B_R17)+V(B_R18)+V(B_R19)
IN+
IN-
OUT+
OUT-
E16329
LIMIT(V(%IN+, %IN-), 0, 0.02)
32A5
IN+
IN-
OUT+
OUT-
ESUM145
V(A_R0)+V(A_R1)+V(A_R2)+V(A_R3)
IN+
IN-
OUT+
OUT-
E16307
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
32A9
32A19
0
BB_R23
B_F3
IN+
IN-
OUT+
OUT-
E_16141
IF(V(CW0, 0)>800m, V(32B11, 0), V(32BB11, 0))
0
0
BB_R21
IN+
IN-
OUT+
OUT-
E16157
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16240
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
0
B_R5
32A20
0
0
0
U10220
DFF_TB67S
CLK
D
R
S
QQB
RST
32A16
U10247
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16153
IF(V(CW0, 0)>800m, V(32B30, 0), V(32BB30, 0))
0
0
0
AB_F2
32AB27
IN+
IN-
OUT+
OUT-
E16273
LIMIT(V(%IN+, %IN-), 0, 0.01)
U32228
2AND_TB67S
0
0
0
RST
0
0
0
0
0
32A17
32A21
0
0
0
32A18
00
32BB27
IN+
IN-
OUT+
OUT-
E16190
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
0
0
U32105
2AND_TB67S
C224
1nF
CLK0
0
0
IN+
IN-
OUT+
OUT-
E16158
LIMIT(V(%IN+, %IN-), 0, 0.01)
32B5
C148
1nF
IN+
IN-
OUT+
OUT-
E_16142
IF(V(CW0, 0)>800m, V(32B12, 0), V(32BB12, 0))
IN+
IN-
OUT+
OUT-
E16308
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
BB_F21
32B9
0
AB_R26
C192
1nF
0
U10248
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM166
V(A_R20)+V(A_R21)+V(A_R22)+V(A_R23)
0
0
IN+
IN-
OUT+
OUT-
E16309
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
ESUM146
V(A_R4)+V(A_R5)+V(A_R6)+V(A_R7)
C163
1nF
0
0
IN+
IN-
OUT+
OUT-
E_16189
IF(V(CW0, 0)>800m, V(32A16, 0), V(32AB16, 0))
CLK0
RST
0
0
0
U32229
2AND_TB67S
0
0
00
IN+
IN-
OUT+
OUT-
E16292
LIMIT(V(%IN+, %IN-), 0, 0.05)
RST
RST
IN+
IN-
OUT+
OUT-
E16330
LIMIT(V(%IN+, %IN-), 0, 0.02)
U32106
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16133
IF(V(CW0, 0)>800m, V(32B2, 0), V(32BB2, 0))
R132 1k
IN+
IN-
OUT+
OUT-
ESUM173
V(AB_F9)+V(AB_F10)+V(AB_F11)+V(AB_F12)
0
0
0
AB_R18
32A27
C158
1nF
U32230
2AND_TB67S
0
0
AB_F1
R133 1k
0
0
A_F4
IN+
IN-
OUT+
OUT-
ESUM209
V(B_F1)+V(B_F2)+V(B_F3)+V(B_F4)
CLK0
0
0
CLK0
0
0
0
0
0
0
0
RST RST
0
00
0
0
0
CLK0
0
BB_R24
IN+
IN-
OUT+
OUT-
E16293
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E16194
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
0
R176 1k
32A28
AB_F3
IN+
IN-
OUT+
OUT-
E_16154
IF(V(CW0, 0)>800m, V(32B24, 0), V(32BB24, 0))
IN+
IN-
OUT+
OUT-
E16159
LIMIT(V(%IN+, %IN-), 0, 0.03)
BB_F7
R177 1k
RST
CLK0
IN+
IN-
OUT+
OUT-
E16270
LIMIT(V(%IN+, %IN-), 0, 0.01)
IN+
IN-
OUT+
OUT-
ESUM224
V(B_R20)+V(B_R21)+V(B_R22)+V(B_R23)
IN+
IN-
OUT+
OUT-
E_16172
IF(V(CW0, 0)>800m, V(32A4, 0), V(32AB4, 0))
IN+
IN-
OUT+
OUT-
ESUM174
V(AB_F13)+V(AB_F14)+V(AB_F15)+V(AB_F16)
32A29
0
32B27
IN+
IN-
OUT+
OUT-
E_16155
IF(V(CW0, 0)>800m, V(32B25, 0), V(32BB25, 0))
0
0
IN+
IN-
OUT+
OUT-
E16331
LIMIT(V(%IN+, %IN-), 0, 0.02)
R138 1k
0
C141
1nF
32BB0
CLK0
U32086
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16215
IF(V(CW0, 0)>800m, V(32AB10, 0), V(32A10, 0))
C164
1nF
U10177
DFF_TB67S
CLK
D
R
S
QQB
0
AB_F29
A_F5
IN+
IN-
OUT+
OUT-
E16294
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
32_Ref _BIN+
IN-
OUT+
OUT-
ESUM154
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U10161
DFF_TB67S
CLK
D
R
S
QQB
0
0
U10252
DFF_TB67S
CLK
D
R
S
QQB
0
0
0
32AB20
0
0
IN+
IN-
OUT+
OUT-
ESUM156
V(A_F25)+V(A_F26)+V(A_F27)+V(A_F28)
0
0
0
0
U32017
2AND_TB67S
RST
0
BB_R22
U32107
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
ESUM175
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
0
0
0
32BB20
C205
1nF
32B8
0
0
U32108
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16245
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
U10178
DFF_TB67S
CLK
D
R
S
QQB
0
IN+
IN-
OUT+
OUT-
E_16216
IF(V(CW0, 0)>800m, V(32AB11, 0), V(32A11, 0))
U10162
DFF_TB67S
CLK
D
R
S
QQB
BB_R25
0
0
0
C159
1nF
32B9
0
0
0
U32018
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM157
V(A_F29)+V(A_F30)
RST
0
0
CLK0
0
0
RST
0
0
0
32B5
0
0
0
0
0
R128 1k
0
0
0
0
U10179
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM210
V(B_F5)+V(B_F6)+V(B_F7)+V(B_F8)
0
0
R139 1k
U32087
2AND_TB67S
32A20
CLK0
0
0
IN+
IN-
OUT+
OUT-
E_16217
IF(V(CW0, 0)>800m, V(32AB12, 0), V(32A12, 0))
U10221
DFF_TB67S
CLK
D
R
S
QQB
0
0
C225
1nF
IN+
IN-
OUT+
OUT-
E_16115
IF(V(CW0, 0)>800m, V(32BB31, 0), V(32B31, 0))
0
0
32B6
U32019
2AND_TB67S
C150
1nF
IN+
IN-
OUT+
OUT-
ESUM176
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
IN+
IN-
OUT+
OUT-
E16241
LIMIT(V(%IN+, %IN-), 0, 0.01)
A_F6
IN+
IN-
OUT+
OUT-
E_16156
IF(V(CW0, 0)>800m, V(32B26, 0), V(32BB26, 0))
R170 1k
RST
0
0
BB_F16
0
0
0
32B20
C151
1nF
U32135
2AND_TB67S
CLK0
A_R28
IN+
IN-
OUT+
OUT-
E16310
LIMIT(V(%IN+, %IN-), 0, 0.01)
U10163
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM246
V(BB_F9)+V(BB_F10)+V(BB_F11)+V(BB_F12)
32B7
0
U32020
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16332
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16145
LIMIT(V(%IN+, %IN-), 0, 0.05)
U10222
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM147
LIMIT(V(%IN+)+V(%IN-), 0, 1)
AB_R3
IN+
IN-
OUT+
OUT-
E16295
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
U32088
2AND_TB67S
RST
0
0
BB_F2
IN+
IN-
OUT+
OUT-
E_16157
IF(V(CW0, 0)>800m, V(32B27, 0), V(32BB27, 0))
IN+
IN-
OUT+
OUT-
ESUM168
V(A_R24)+V(A_R25)+V(A_R26)+V(A_R27)
0
0
0
0
0
CLK0
0
0
IN+
IN-
OUT+
OUT-
E_16116
IF(V(CW0, 0)>800m, V(32BB22, 0), V(32B22, 0))
U32127
2AND_TB67S
C165
1nF
32AB8
R134 1k
32AB9
U32153
2AND_TB67S
0
0
0
RST
0
0
0
U10223
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16117
IF(V(CW0, 0)>800m, V(32BB23, 0), V(32B23, 0))
R135 1k
32AB15
U32021
2AND_TB67S
C142
1nF
IN+
IN-
OUT+
OUT-
ESUM177
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16333
LIMIT(V(%IN+, %IN-), 0, 0.01)
00
U32109
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16208
IF(V(CW0, 0)>800m, V(32AB2, 0), V(32A2, 0))
CLK0
0
U10196
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM247
V(BB_F13)+V(BB_F14)+V(BB_F15)+V(BB_F16)
C193
1nF
0
BB_F1
U32089
2AND_TB67S
32AB5
0
0 0
A_R0
32AB6
0
0
BB_F17
32AB14
R142 1k
U10224
DFF_TB67S
CLK
D
R
S
QQB
U32022
2AND_TB67S
U10253
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM169
V(A_R28)+V(A_R29)
0
BB_R26
R129 1k
32AB28
C226
1nF
IN+
IN-
OUT+
OUT-
E_16158
IF(V(CW0, 0)>800m, V(32B19, 0), V(32BB19, 0))
IN+
IN-
OUT+
OUT-
E16130
LIMIT(V(%IN+, %IN-), 0, 0.01)
R143 1k
0
IN+
IN-
OUT+
OUT-
E_16118
IF(V(CW0, 0)>800m, V(32BB17, 0), V(32B17, 0))
U32032
2AND_TB67S
C206
1nF
U32136
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16164
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E_16101
IF(V(CW0, 0)>800m, V(32BB3, 0), V(32B3, 0))
BB_F3
32AB7
0
U32154
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E_16119
IF(V(CW0, 0)>800m, V(32BB18, 0), V(32B18, 0))
U10254
DFF_TB67S
CLK
D
R
S
QQB
0
32BB28
U32137
2AND_TB67S
0
0
0
0
0
0
IN+
IN-
OUT+
OUT-
E16228
LIMIT(V(%IN+, %IN-), 0, 0.04)
UMO_32001
2AND_TB67S
0
0
U32033
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM248
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32023
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16244
LIMIT(V(%IN+, %IN-), 0, 0.01)
U32068
2AND_TB67S
32BB14
U32110
2AND_TB67S
0
0
0
0
C161
1nF
U10255
DFF_TB67S
CLK
D
R
S
QQB
0
0
BB_R18
IN+
IN-
OUT+
OUT-
E_32006
IF(V(CW0, 0)>800m, V(32_AB, 0), V(32_A, 0))
32B0
0
0
C143
1nF
U32024
2AND_TB67S
32_B
0
0
32A28
U32111
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16131
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
0
U32090
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM170
LIMIT(V(%IN+)+V(%IN-), 0, 1)
RST
IN+
IN-
OUT+
OUT-
E_16120
IF(V(CW0, 0)>800m, V(32BB20, 0), V(32B20, 0))
R171 1k
R160 1k
IN+
IN-
OUT+
OUT-
E16206
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
CLK0
0
0
B_R2
A_R29
C166
1nF
UEX1017
EX_OR_TB67S
A
B
O
0
0
IN+
IN-
OUT+
OUT-
E_16103
IF(V(CW0, 0)>800m, V(32BB5, 0), V(32B5, 0))
IN+
IN-
OUT+
OUT-
ESUM211
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
IN+
IN-
OUT+
OUT-
E16135
LIMIT(V(%IN+, %IN-), 0, 0.05)
RST
0
IN+
IN-
OUT+
OUT-
ESUM160
V(A_F17)+V(A_F18)+V(A_F19)+V(A_F20)
U10256
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16159
IF(V(CW0, 0)>800m, V(32B21, 0), V(32BB21, 0))
0
0
IN+
IN-
OUT+
OUT-
E_16121
IF(V(CW0, 0)>800m, V(32BB29, 0), V(32B29, 0))
IN+
IN-
OUT+
OUT-
ESUM178
V(AB_F1)+V(AB_F2)+V(AB_F3)+V(AB_F4)
0
0
0
0
0
32AB21
IN+
IN-
OUT+
OUT-
E_16174
IF(V(CW0, 0)>800m, V(32A31, 0), V(32AB31, 0))
U32025
2AND_TB67S
32_B
CLK0
U32050
2AND_TB67S
U32046
2AND_TB67S
32B28
IN+
IN-
OUT+
OUT-
ESUM249
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
IN+
IN-
OUT+
OUT-
E16334
LIMIT(V(%IN+, %IN-), 0, 0.03)
RST
32BB21
U32112
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_32004
IF(V(CW0, 0)>800m, V(32_BB, 0), V(32_B, 0))
U32091
2AND_TB67S
0
AB_R2
IN+
IN-
OUT+
OUT-
E_16122
IF(V(CW0, 0)>800m, V(32BB28, 0), V(32B28, 0))
CLK0
0
32A14
U32155
2AND_TB67S
0
BB_F18
A_R19
IN+
IN-
OUT+
OUT-
E16319
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
U32051
2AND_TB67S
32B20
32B19
0
0
IN+
IN-
OUT+
OUT-
E_16143
IF(V(CW0, 0)>800m, V(32B4, 0), V(32BB4, 0))
32AB19
32_AB
C194
1nF
IN+
IN-
OUT+
OUT-
ESUM148
V(A_R8)+V(A_R9)+V(A_R10)+V(A_R11)
IN+
IN-
OUT+
OUT-
E16311
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
BB_R3
U32241
2AND_TB67S
RST
0
0
0
IN+
IN-
OUT+
OUT-
E16214
LIMIT(V(%IN+, %IN-), 0, 0.04)
BB_F29IN+
IN-
OUT+
OUT-
E_16123
IF(V(CW0, 0)>800m, V(32BB30, 0), V(32B30, 0))
0
0
0
0
A_F15
U32113
2AND_TB67S
CLK0
0
0
C227
1nF
32B16
RST
RST
0
32A21
32B21
32AB20
0
0
A_R13
IN+
IN-
OUT+
OUT-
E16246
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
ESUM250
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32156
2AND_TB67S
R161 1k
U32052
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16114
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
ESUM179
V(AB_F5)+V(AB_F6)+V(AB_F7)+V(AB_F8)
U32047
2AND_TB67S
RST
CLK0
0
RST
32AB21
32AB16
0
U32053
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16109
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
0
U32114
2AND_TB67S
32B17
CLK0
32AB17
CLK0
IN+
IN-
OUT+
OUT-
E_16124
IF(V(CW0, 0)>800m, V(32BB24, 0), V(32B24, 0))
32B1832AB18
0
IN+
IN-
OUT+
OUT-
ESUM161
V(A_F21)+V(A_F22)+V(A_F23)+V(A_F24)
R178 1k
IN+
IN-
OUT+
OUT-
ESUM225
V(B_R24)+V(B_R25)+V(B_R26)+V(B_R27)
32B21
C195
1nF
32B14
AB_F4
CLK0
0
MO_1_32
IN+
IN-
OUT+
OUT-
E_16125
IF(V(CW0, 0)>800m, V(32BB25, 0), V(32B25, 0))
U32076
2AND_TB67S
32BB8
B_F4
IN+
IN-
OUT+
OUT-
E_16175
IF(V(CW0, 0)>800m, V(32A22, 0), V(32AB22, 0))
0
00
BB_F19
R179 1k
00
U10225
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM212
V(B_R0)+V(B_R1)+V(B_R2)+V(B_R3)
C153
1nF
C182
1nF
IN+
IN-
OUT+
OUT-
ESUM149
V(A_R12)+V(A_R13)+V(A_R14)+V(A_R15)
0
0
U32054
2AND_TB67S
CLK0
RST
IN+
IN-
OUT+
OUT-
E16335
LIMIT(V(%IN+, %IN-), 0, 0.05)
C167
1nF
0
0
32BB9
0
A_R15
U32004
2AND_TB67S
U32055
2AND_TB67S
0
0
0
00
32_Ref _AB
U32115
2AND_TB67S
RST
0
0
0
0
0
U32007
2AND_TB67S
32BB5
0
IN+
IN-
OUT+
OUT-
E_16126
IF(V(CW0, 0)>800m, V(32BB26, 0), V(32B26, 0))
CLK0
IN+
IN-
OUT+
OUT-
E16160
LIMIT(V(%IN+, %IN-), 0, 0.03)
U10188
DFF_TB67S
CLK
D
R
S
QQB
32BB6
0
0
U10226
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16117
LIMIT(V(%IN+, %IN-), 0, 0.04)
32AB12
IN+
IN-
OUT+
OUT-
E_16127
IF(V(CW0, 0)>800m, V(32BB27, 0), V(32B27, 0))
U32242
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E_16176
IF(V(CW0, 0)>800m, V(32A23, 0), V(32AB23, 0))
RST
0
U32077
2AND_TB67S
0
U32056
2AND_TB67S
0
0
0
0
0
0
32BB12
AB_F5
U32116
2AND_TB67S
RST
CLK0
32BB7
U32157
2AND_TB67S
U10148
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16320
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
0
0
U10227
DFF_TB67S
CLK
D
R
S
QQB
32AB1
0
IN+
IN-
OUT+
OUT-
E_16128
IF(V(CW0, 0)>800m, V(32BB19, 0), V(32B19, 0))
IN+
IN-
OUT+
OUT-
E16247
LIMIT(V(%IN+, %IN-), 0, 0.04)
U32078
2AND_TB67S
32AB2
U10257
DFF_TB67S
CLK
D
R
S
QQB
BB_F20
AB_R17
U32117
2AND_TB67S
U32223
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E16108
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
0
U32057
2AND_TB67S
C144
1nF
RST
0
C196
1nF
IN+
IN-
OUT+
OUT-
E16110
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
B_F5
U32158
2AND_TB67S
0
0
C228
1nF
U32058
2AND_TB67S
U10197
DFF_TB67S
CLK
D
R
S
QQB
0
0
A_R9
32A12
IN+
IN-
OUT+
OUT-
E_16129
IF(V(CW0, 0)>800m, V(32BB21, 0), V(32B21, 0))
U32243
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16195
LIMIT(V(%IN+, %IN-), 0, 0.05)
CLK0
0
IN+
IN-
OUT+
OUT-
E_16104
IF(V(CW0, 0)>800m, V(32BB6, 0), V(32B6, 0))
R144 1k
IN+
IN-
OUT+
OUT-
ESUM226
V(B_R28)+V(B_R29)
IN+
IN-
OUT+
OUT-
ESUM213
V(B_R4)+V(B_R5)+V(B_R6)+V(B_R7)
U10258
DFF_TB67S
CLK
D
R
S
QQB
U32092
2AND_TB67S
U10228
DFF_TB67S
CLK
D
R
S
QQB
U32118
2AND_TB67S
0
32BB2
A_R7
0
32AB29
R162 1k
IN+
IN-
OUT+
OUT-
ESUM251
V(BB_F1)+V(BB_F2)+V(BB_F3)+V(BB_F4)
0
0
U32119
2AND_TB67S
U32035
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM180
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
32BB29
U32059
2AND_TB67S
RST
0
A_R5
0
0
IN+
IN-
OUT+
OUT-
E_16177
IF(V(CW0, 0)>800m, V(32A17, 0), V(32AB17, 0))
U32244
2AND_TB67S
RST
0
IN+
IN-
OUT+
OUT-
E16248
LIMIT(V(%IN+, %IN-), 0, 0.05)
32B12
U32120
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16106
LIMIT(V(%IN+, %IN-), 0, 0.04)
00
R163 1k
IN+
IN-
OUT+
OUT-
E_32008
IF(V(CW0, 0)>800m, V(32_A, 0), V(32_AB, 0))
CLK0
AB_F28
A_R20
U10259
DFF_TB67S
CLK
D
R
S
QQB
AB_F6
U32060
2AND_TB67S
0
BB_R2
C168
1nF
CLK0
0
0
U10198
DFF_TB67S
CLKD
R
S
QQB
0
0
IN+
IN-
OUT+
OUT-
E_16218
IF(V(CW0, 0)>800m, V(32AB4, 0), V(32A4, 0))
0
0
U32061
2AND_TB67S
32_BB
RST
0
0
IN+
IN-
OUT+
OUT-
E16118
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
32_Ref _A
IN+
IN-
OUT+
OUT-
E16111
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E_16178
IF(V(CW0, 0)>800m, V(32A18, 0), V(32AB18, 0))
0
0
32A2
IN+
IN-
OUT+
OUT-
E_16114
IF(V(CW0, 0)>800m, V(32BB16, 0), V(32B16, 0))
A_R14
U32121
2AND_TB67S
0
C154
1nF
RST
0
32A29
R145 1k
0
0
U32122
2AND_TB67S
U10260
DFF_TB67S
CLK
D
R
S
QQB
32BB19
0
32BB20
0
0
U32062
2AND_TB67S
RST
U32245
2AND_TB67S
RST
IN+
IN-
OUT+
OUT-
ESUM233
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
0
0
U10199
DFF_TB67S
CLK
D
R
S
QQB
CLK0
32BB16
CLK0
0
32AB22
U32063
2AND_TB67S
32BB21
U32093
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16287
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
CLK0
RST
0
0
C169
1nF
32B28
0
0
B_F6
IN+
IN-
OUT+
OUT-
E16296
LIMIT(V(%IN+, %IN-), 0, 0.04)
32BB17
RST
0
0
IN+
IN-
OUT+
OUT-
ESUM252
V(BB_F5)+V(BB_F6)+V(BB_F7)+V(BB_F8)
32B29
CLK0
32BB18
U32159
2AND_TB67S
32B2
32BB22
IN+
IN-
OUT+
OUT-
ESUM196
LIMIT(V(%IN+)+V(%IN-), 0, 1)
32B29
U10164
DFF_TB67S
CLK
D
R
S
QQB
32B15
0
0
U32246
2AND_TB67S
0
0
0
BB_F4
RST
32AB6
IN+
IN-
OUT+
OUT-
E16249
LIMIT(V(%IN+, %IN-), 0, 0.05)
U10189
DFF_TB67S
CLK
D
R
S
QQB
U10180
DFF_TB67S
CLK
D
R
S
QQB
0
AB_F23
AB_R0
IN+
IN-
OUT+
OUT-
E16297
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
IN+
IN-
OUT+
OUT-
ESUM181
V(AB_R0)+V(AB_R1)+V(AB_R2)+V(AB_R3)
C197
1nF
CLK0
00
0
U32231
2AND_TB67S
RST
C207
1nF
U32036
2AND_TB67S
32_Ref _BB
32AB10
IN+
IN-
OUT+
OUT-
ESUM214
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
0
32BB6
IN+
IN-
OUT+
OUT-
E16204
LIMIT(V(%IN+, %IN-), 0, 0.02)
CLK0
32A22
U32160
2AND_TB67S
0
0
0
CLK0
AB_F22
IN+
IN-
OUT+
OUT-
ESUM197
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16112
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
32BB10
RST
0
0
0
U10190
DFF_TB67S
CLK
D
R
S
QQB
RST
0
0
IN+
IN-
OUT+
OUT-
E16119
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
IN+
IN-
OUT+
OUT-
ESUM215
V(B_F25)+V(B_F26)+V(B_F27)+V(B_F28)
IN+
IN-
OUT+
OUT-
E16336
LIMIT(V(%IN+, %IN-), 0, 0.04)
C229
1nF
IN+
IN-
OUT+
OUT-
E_16134
IF(V(CW0, 0)>800m, V(32B3, 0), V(32BB3, 0))
0
A_R16
U10229
DFF_TB67S
CLK
D
R
S
QQB
0
0
AB_F24
CLK0
0
0
0
32AB17
R172 1k
RST
0
0
CLK0
32A6
0
0
0
0
U32232
2AND_TB67S
0
0
0
B_R0
C183
1nF
RST
0
0
32B22
IN+
IN-
OUT+
OUT-
E_16179
IF(V(CW0, 0)>800m, V(32A20, 0), V(32AB20, 0))
CLK0
0
U10149
DFF_TB67S
CLK
D
R
S
QQB
C170
1nF
0
0
U10191
DFF_TB67S
CLK
D
R
S
QQB
RST
BB_F5
IN+
IN-
OUT+
OUT-
ESUM198
LIMIT(V(%IN+)+V(%IN-), 0, 1)
RST
U32233
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM171
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
IN+
IN-
OUT+
OUT-
E_16180
IF(V(CW0, 0)>800m, V(32A29, 0), V(32AB29, 0))
IN+
IN-
OUT+
OUT-
E16337
LIMIT(V(%IN+, %IN-), 0, 0.03)
RST
0
0
IN+
IN-
OUT+
OUT-
E16113
LIMIT(V(%IN+, %IN-), 0, 0.05)
CLK0
0
32B6
32A10
0
A_R1
IN+
IN-
OUT+
OUT-
E_16163
IF(V(CW0, 0)>800m, V(32A3, 0), V(32AB3, 0))
0
0
0
A_R10
R180 1k
C214
1nF
CLK0
0
A_R27
IN+
IN-
OUT+
OUT-
E16102
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
BB_R17
IN+
IN-
OUT+
OUT-
ESUM216
V(B_F29)+V(B_F30)
IN+
IN-
OUT+
OUT-
ESUM182
V(AB_R4)+V(AB_R5)+V(AB_R6)+V(AB_R7)
0
0
0
IN+
IN-
OUT+
OUT-
E16338
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
RST
0
0
0
R146 1k
RST
CLK0
0
U10150
DFF_TB67S
CLK
D
R
S
QQB
U32161
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM253
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
0
IN+
IN-
OUT+
OUT-
E16242
LIMIT(V(%IN+, %IN-), 0, 0.02)
R173 1k
A_R8
R164 1k
IN+
IN-
OUT+
OUT-
E16120
LIMIT(V(%IN+, %IN-), 0, 0.01)
32BB17
C184
1nF
CLK0
RST
AB_F25
0
U10151
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16105
IF(V(CW0, 0)>800m, V(32BB7, 0), V(32B7, 0))
RST
0
0
R147 1k
U32162
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM199
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
ESUM202
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
32B10
U32247
2AND_TB67S
C230
1nF
0
CLK0
RST
CLK0
0
U10261
DFF_TB67S
CLK
D
R
S
QQB
CLK0
IN+
IN-
OUT+
OUT-
E16271
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E_16135
IF(V(CW0, 0)>800m, V(32B5, 0), V(32BB5, 0))
0
A_R11
U10165
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16250
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
0
0
0
IN+
IN-
OUT+
OUT-
E16339
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
0
RST
RST
0
0
0
C198
1nF
R181 1k
32A4
0
BB_F28
IN+
IN-
OUT+
OUT-
ESUM234
V(BB_R16)+V(BB_R17)+V(BB_R18)+V(BB_R19)
IN+
IN-
OUT+
OUT-
E_16181
IF(V(CW0, 0)>800m, V(32A28, 0), V(32AB28, 0))
0
U10262
DFF_TB67S
CLK
D
R
S
QQB
AB_F26
IN+
IN-
OUT+
OUT-
E16207
LIMIT(V(%IN+, %IN-), 0, 0.03)
C199
1nF
0
0
0
IN+
IN-
OUT+
OUT-
ESUM200
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E_16164
IF(V(CW0, 0)>800m, V(32A5, 0), V(32AB5, 0))
32AB28
BB_F6
IN+
IN-
OUT+
OUT-
E16115
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
B_R28
CLK0
0
0
AB_R13
U32037
2AND_TB67S
0
0
0
U10166
DFF_TB67S
CLK
D
R
S
QQB
U32248
2AND_TB67S
32A14
32A13
CLK0
0
U10263
DFF_TB67S
CLK
D
R
S
QQB
U10230
DFF_TB67S
CLK
D
R
S
QQB
C231
1nF
0
0
0
BB_F23
U32163
2AND_TB67S
32AB29
32A10
0
0
0
0
0
00
B_R13
IN+
IN-
OUT+
OUT-
ESUM254
V(BB_R0)+V(BB_R1)+V(BB_R2)+V(BB_R3)
CLK0
RST
U10167
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16121
LIMIT(V(%IN+, %IN-), 0, 0.02)
32A15
IN+
IN-
OUT+
OUT-
E16251
LIMIT(V(%IN+, %IN-), 0, 0.05)
C171
1nF
IN+
IN-
OUT+
OUT-
E_16182
IF(V(CW0, 0)>800m, V(32A30, 0), V(32AB30, 0))
IN+
IN-
OUT+
OUT-
ESUM217
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16208
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
IN+
IN-
OUT+
OUT-
E16340
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
U10264
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16136
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
IN+
IN-
OUT+
OUT-
E16165
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
ESUM201
LIMIT(V(%IN+)+V(%IN-), 0, 1)
A_F14
IN+
IN-
OUT+
OUT-
ESUM183
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
AB_F27
0
0
IN+
IN-
OUT+
OUT-
E16116
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
0
32A17
32AB23
C185
1nF
IN+
IN-
OUT+
OUT-
E16122
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
A_R23
R165 1k
32A12
32A11
0
U10181
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM235
V(BB_R20)+V(BB_R21)+V(BB_R22)+V(BB_R23)
0
0
BB_F22
IN+
IN-
OUT+
OUT-
E16201
LIMIT(V(%IN+, %IN-), 0, 0.01)
U32164
2AND_TB67S
A_R21
0
BB_F24
R166 1k
IN+
IN-
OUT+
OUT-
ESUM184
V(AB_F25)+V(AB_F26)+V(AB_F27)+V(AB_F28)
0
00
C186
1nF
0
0
0
0
A_R12
32BB23
RST
0
0
IN+
IN-
OUT+
OUT-
E16209
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
U32165
2AND_TB67S
0
0
0
C200
1nF
C232
1nF
IN+
IN-
OUT+
OUT-
E16252
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
0
BB_R0
U32128
2AND_TB67S
0
0
0
0
0
32AB2
RST
0
U10182
DFF_TB67S
CLK
D
R
S
QQB
C215
1nF
0
C187
1nF
CLK0
0
0
AB_F21
U10231
DFF_TB67S
CLK
D
R
S
QQB
0
0
R167 1k
IN+
IN-
OUT+
OUT-
E16253
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
ESUM255
V(BB_R4)+V(BB_R5)+V(BB_R6)+V(BB_R7)
32A23
0
0
A_F9
R182 1k
0
IN+
IN-
OUT+
OUT-
E16175
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
IN+
IN-
OUT+
OUT-
E_16183
IF(V(CW0, 0)>800m, V(32A24, 0), V(32AB24, 0))
IN+
IN-
OUT+
OUT-
E16259
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E16166
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E_16108
IF(V(CW0, 0)>800m, V(32BB14, 0), V(32B14, 0))
U32069
2AND_TB67S
AB_F30
RST
0
BB_F25
0
0
IN+
IN-
OUT+
OUT-
E16167
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
ESUM185
V(AB_F29)+V(AB_F30)
U32138
2AND_TB67S
CLK0
U10183
DFF_TB67S
CLK
D
R
S
QQB
CLK0
R174 1k
IN+
IN-
OUT+
OUT-
E16254
LIMIT(V(%IN+, %IN-), 0, 0.05)
R183 1k
B_R9
IN+
IN-
OUT+
OUT-
E_16107
IF(V(CW0, 0)>800m, V(32BB13, 0), V(32B13, 0))
IN+
IN-
OUT+
OUT-
E_16209
IF(V(CW0, 0)>800m, V(32AB3, 0), V(32A3, 0))
0
32B17
0
0
B_R7
32B23
A_F8
0
A_F10
0
0
0
0
IN+
IN-
OUT+
OUT-
E_16109
IF(V(CW0, 0)>800m, V(32BB15, 0), V(32B15, 0))
0
0
0
IN+
IN-
OUT+
OUT-
E_16184
IF(V(CW0, 0)>800m, V(32A25, 0), V(32AB25, 0))
R148 1k
0
0
IN+
IN-
OUT+
OUT-
E16124
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16137
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
U32139
2AND_TB67S
0
0
00
RSTRST
0
0
0
U32166
2AND_TB67S
U32187
2AND_TB67S
32A25
0
0
0
0
U32123
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16168
LIMIT(V(%IN+, %IN-), 0, 0.04)
32A26
CLK0
U10232
DFF_TB67S
CLK
D
R
S
QQB
32A22
B_R14
IN+
IN-
OUT+
OUT-
E16255
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
E16105
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
U32124
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM244
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16125
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16138
LIMIT(V(%IN+, %IN-), 0, 0.04)
C201
1nF
0
A_R24
C216
1nF
RST
0
AB_F16
AB_R9
U32188
2AND_TB67S
32A23
32A27
0
32_A
C172
1nF
0
IN+
IN-
OUT+
OUT-
E16176
LIMIT(V(%IN+, %IN-), 0, 0.01)
U32167
2AND_TB67S
0
0
0
IN+
IN-
OUT+
OUT-
E16312
LIMIT(V(%IN+, %IN-), 0, 0.02)
32A24
CLK0
0
0
A_R22
32BB28
0
B_R29
A_R4
AB_R7
32BB29
0
0
0
0
R175 1k
CLK0
AB_F17
U10265
DFF_TB67S
CLK
D
R
S
QQB
0
0
0
0
00
A_R25
C173
1nF
IN+
IN-
OUT+
OUT-
ESUM218
V(B_F17)+V(B_F18)+V(B_F19)+V(B_F20)
IN+
IN-
OUT+
OUT-
E_16185
IF(V(CW0, 0)>800m, V(32A26, 0), V(32AB26, 0))
00
0
0
AB_R28
IN+
IN-
OUT+
OUT-
E16169
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E_16210
IF(V(CW0, 0)>800m, V(32AB5, 0), V(32A5, 0))
32A1
32BB15
IN+
IN-
OUT+
OUT-
E_16190
IF(V(CW0, 0)>800m, V(32AB31, 0), V(32A31, 0))
C233
1nF
U32026
2AND_TB67S
RST
0
0
CLK0
0
0
0
IN+
IN-
OUT+
OUT-
ESUM256
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E_16186
IF(V(CW0, 0)>800m, V(32A27, 0), V(32AB27, 0))
U32027
2AND_TB67S
U10152
DFF_TB67S
CLK
D
R
S
QQB
0
U32189
2AND_TB67S
U10266
DFF_TB67S
CLK
D
R
S
QQB
0
32AB3
IN+
IN-
OUT+
OUT-
E16139
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
U32140
2AND_TB67S
0
AB_R14
IN+
IN-
OUT+
OUT-
ESUM186
LIMIT(V(%IN+)+V(%IN-), 0, 1)
00
B_R19
BB_R13
U32168
2AND_TB67S
0
0
B_R10
U32028
2AND_TB67S
0
U10233
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16126
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
ESUM257
V(BB_F25)+V(BB_F26)+V(BB_F27)+V(BB_F28)
0
U32029
2AND_TB67S
32BB3
0
U32190
2AND_TB67S
U10267
DFF_TB67S
CLK
D
R
S
QQB
0
IN+
IN-
OUT+
OUT-
E16196
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
IN+
IN-
OUT+
OUT-
ESUM219
V(B_R8)+V(B_R9)+V(B_R10)+V(B_R11)
IN+
IN-
OUT+
OUT-
E16170
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
A_F11
R149 1k
0
IN+
IN-
OUT+
OUT-
ESUM236
V(BB_R24)+V(BB_R25)+V(BB_R26)+V(BB_R27)
0
0
U32030
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16110
IF(V(CW0, 0)>800m, V(32BB9, 0), V(32B9, 0))
U10234
DFF_TB67S
CLK
D
R
S
QQB
RST
IN+
IN-
OUT+
OUT-
E16127
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
IN+
IN-
OUT+
OUT-
E_16187
IF(V(CW0, 0)>800m, V(32A19, 0), V(32AB19, 0))
0
0
0
A_R26
IN+
IN-
OUT+
OUT-
E_16191
IF(V(CW0, 0)>800m, V(32AB22, 0), V(32A22, 0))
AB_F18
0
0
0
R150 1k
CLK0
0
0
IN+
IN-
OUT+
OUT-
E16177
LIMIT(V(%IN+, %IN-), 0, 0.03)
U32169
2AND_TB67S
32A3
U32141
2AND_TB67S
C174
1nF
IN+
IN-
OUT+
OUT-
ESUM258
V(BB_F29)+V(BB_F30)
IN+
IN-
OUT+
OUT-
E16210
LIMIT(V(%IN+, %IN-), 0, 0.02)
B_R8
IN+
IN-
OUT+
OUT-
E_16192
IF(V(CW0, 0)>800m, V(32AB23, 0), V(32A23, 0))
0
0
0
0
U10235
DFF_TB67S
CLK
D
R
S
QQB
0
0
U32191
2AND_TB67S
U10200
DFF_TB67S
CLK
D
R
S
QQB
0
0
32AB15
A_F12
U32192
2AND_TB67S
R184 1k
0
0
R151 1k
0
0
IN+
IN-
OUT+
OUT-
E16140
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
ESUM220
V(B_F21)+V(B_F22)+V(B_F23)+V(B_F24)
0
0
U32170
2AND_TB67S
U32034
2AND_TB67S
RST
0
0
0
0
0
0
IN+
IN-
OUT+
OUT-
E16146
LIMIT(V(%IN+, %IN-), 0, 0.01)
U32224
2AND_TB67S
0
0
B_R11
IN+
IN-
OUT+
OUT-
ESUM237
V(BB_R28)+V(BB_R29)
CLK0
32B3
0
0
32BB15
IN+
IN-
OUT+
OUT-
E_16188
IF(V(CW0, 0)>800m, V(32A21, 0), V(32AB21, 0))
C202
1nF
0
A_R18
IN+
IN-
OUT+
OUT-
ESUM221
V(B_R12)+V(B_R13)+V(B_R14)+V(B_R15)
U32079
2AND_TB67S
U10236
DFF_TB67S
CLK
D
R
S
QQB
0
0
0
IN+
IN-
OUT+
OUT-
ESUM155
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
32AB30
IN+
IN-
OUT+
OUT-
E_16193
IF(V(CW0, 0)>800m, V(32AB17, 0), V(32A17, 0))
IN+
IN-
OUT+
OUT-
E16128
LIMIT(V(%IN+, %IN-), 0, 0.03)
C234
1nF
0
0
0
0
B_R15
U32171
2AND_TB67S
0
0
AB_F19
IN+
IN-
OUT+
OUT-
E16178
LIMIT(V(%IN+, %IN-), 0, 0.04)
C235
1nF
RST
0
IN+
IN-
OUT+
OUT-
E_16194
IF(V(CW0, 0)>800m, V(32AB18, 0), V(32A18, 0))
RST
0
BB_R28
AB_R10
U32038
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E16141
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
U32008
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16197
LIMIT(V(%IN+, %IN-), 0, 0.04)
A_F29
CLK0
32BB30
IN+
IN-
OUT+
OUT-
E16298
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
0
IN+
IN-
OUT+
OUT-
ESUM163
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16171
LIMIT(V(%IN+, %IN-), 0, 0.04)
U32009
2AND_TB67S
U32080
2AND_TB67S
U32172
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16215
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
U32193
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16205
LIMIT(V(%IN+, %IN-), 0, 0.02)
32A15
IN+
IN-
OUT+
OUT-
ESUM259
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
IN+
IN-
OUT+
OUT-
ESUM150
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16198
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
C217
1nF
0
0
C203
1nF
RST
0
BB_R9
AB_R8
U32194
2AND_TB67S
U32039
2AND_TB67S
0
0
U32010
2AND_TB67S
RST
IN+
IN-
OUT+
OUT-
E_16173
IF(V(CW0, 0)>800m, V(32A6, 0), V(32AB6, 0))
0
0
0
0
0
0
BB_R7
C149
1nF
C175
1nF
RST
CLK0
0
U32142
2AND_TB67S
32B14
32B13
CLK0
0
U32011
2AND_TB67S
U32173
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM164
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
32A30
C145
1nF
32B15
32B10
B_R20
A_F13
R185 1k
IN+
IN-
OUT+
OUT-
E_16195
IF(V(CW0, 0)>800m, V(32AB20, 0), V(32A20, 0))
U32040
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16147
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
0
IN+
IN-
OUT+
OUT-
E_16196
IF(V(CW0, 0)>800m, V(32AB29, 0), V(32A29, 0))
U10153
DFF_TB67S
CLK
D
R
S
QQB
0
U32005
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16179
LIMIT(V(%IN+, %IN-), 0, 0.03)
C208
1nF
0
32B15
U32012
2AND_TB67S
0
AB_F20
AB_R11
0
0
0
U32195
2AND_TB67S
U32041
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E16260
LIMIT(V(%IN+, %IN-), 0, 0.02)
RST
R186 1k
U32174
2AND_TB67S
U32196
2AND_TB67S
RST
0
AB_R29
32B11
IN+
IN-
OUT+
OUT-
E16172
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
0
0
0
32_AB
U32013
2AND_TB67S
C157
1nF
IN+
IN-
OUT+
OUT-
E16199
LIMIT(V(%IN+, %IN-), 0, 0.04)
C236
1nF
0
0
32B30
IN+
IN-
OUT+
OUT-
E_16197
IF(V(CW0, 0)>800m, V(32AB28, 0), V(32A28, 0))
CLK0
0
0
IN+
IN-
OUT+
OUT-
E16279
LIMIT(V(%IN+, %IN-), 0, 0.05)
32B12
0
BB_R14
U32197
2AND_TB67S
U32042
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16107
LIMIT(V(%IN+, %IN-), 0, 0.05)
U32219
2AND_TB67S
0
0
U32143
2AND_TB67S
32BB16
IN+
IN-
OUT+
OUT-
ESUM187
V(AB_F17)+V(AB_F18)+V(AB_F19)+V(AB_F20)
U32175
2AND_TB67S
U10154
DFF_TB67S
CLK
D
R
S
QQB
0
0
B_R1
A_R6
IN+
IN-
OUT+
OUT-
ESUM158
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
0
0
B_F26
R130 1k
RST
RST
0
0
0
0
IN+
IN-
OUT+
OUT-
E16231
LIMIT(V(%IN+, %IN-), 0, 0.02)
32B1
0
IN+
IN-
OUT+
OUT-
E_16198
IF(V(CW0, 0)>800m, V(32AB30, 0), V(32A30, 0))
IN+
IN-
OUT+
OUT-
E16272
LIMIT(V(%IN+, %IN-), 0, 0.01)
IN+
IN-
OUT+
OUT-
E16142
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
U32043
2AND_TB67S
R187 1k
IN+
IN-
OUT+
OUT-
E16300
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E16180
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
E16161
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
B_R16
CLK0
0
0
B_R12
BB_F15
U32198
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16321
LIMIT(V(%IN+, %IN-), 0, 0.01)
CLK0
32AB13
0
0
IN+
IN-
OUT+
OUT-
E_16106
IF(V(CW0, 0)>800m, V(32BB8, 0), V(32B8, 0))
U10155
DFF_TB67S
CLK
D
R
S
QQB
U32081
2AND_TB67S
U32176
2AND_TB67S
U10207
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16160
IF(V(CW0, 0)>800m, V(32A7, 0), V(32AB7, 0))
U32199
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16216
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
32B4
RST
0
0
0
0
AB_R19
R131 1k
32AB10
32AB14
0
0
0
AB_R1
IN+
IN-
OUT+
OUT-
ESUM159
LIMIT(V(%IN+)+V(%IN-), 0, 1)
RST
0
00
0
CW0
U10201
DFF_TB67S
CLK
D
R
S
QQB
U32234
2AND_TB67S
32AB15
CLK0
0
B_R27
IN+
IN-
OUT+
OUT-
E16280
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
U32177
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16199
IF(V(CW0, 0)>800m, V(32AB24, 0), V(32A24, 0))
0
0
IN+
IN-
OUT+
OUT-
E16143
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E16261
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
0
U10172
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16181
LIMIT(V(%IN+, %IN-), 0, 0.01)
32A15
0
B_F14
U10237
DFF_TB67S
CLK
D
R
S
QQB
0
0
IN+
IN-
OUT+
OUT-
E_16200
IF(V(CW0, 0)>800m, V(32AB25, 0), V(32A25, 0))
IN+
IN-
OUT+
OUT-
E_16165
IF(V(CW0, 0)>800m, V(32A14, 0), V(32AB14, 0))
U32220
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16129
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
ESUM188
V(AB_R8)+V(AB_R9)+V(AB_R10)+V(AB_R11)
IN+
IN-
OUT+
OUT-
E16313
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
IN+
IN-
OUT+
OUT-
E16132
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
U32001
2AND_TB67S
U32200
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16217
LIMIT(V(%IN+, %IN-), 0, 0.04)
B_F27
IN+
IN-
OUT+
OUT-
E_16111
IF(V(CW0, 0)>800m, V(32BB10, 0), V(32B10, 0))
A_R17
32AB18
IN+
IN-
OUT+
OUT-
E16262
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
IN+
IN-
OUT+
OUT-
ESUM191
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U10208
DFF_TB67S
CLK
D
R
S
QQB
32AB11
0
0
U10202
DFF_TB67S
CLK
D
R
S
QQB
U32178
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM167
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
32AB8
U32235
2AND_TB67S
U32201
2AND_TB67S
0
0
IN+
IN-
OUT+
OUT-
E_16166
IF(V(CW0, 0)>800m, V(32A13, 0), V(32AB13, 0))
CLK0
0
0
0
C152
1nF
U32044
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16148
LIMIT(V(%IN+, %IN-), 0, 0.03)
32AB12
32_A
0
U32179
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16131
IF(V(CW0, 0)>800m, V(32B7, 0), V(32BB7, 0))
0
0
IN+
IN-
OUT+
OUT-
E_16201
IF(V(CW0, 0)>800m, V(32AB26, 0), V(32A26, 0))
IN+
IN-
OUT+
OUT-
E16218
LIMIT(V(%IN+, %IN-), 0, 0.05)
BB_R10
32BB8
IN+
IN-
OUT+
OUT-
E16256
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E16263
LIMIT(V(%IN+, %IN-), 0, 0.03)
U32144
2AND_TB67S
32A16
C237
1nF
IN+
IN-
OUT+
OUT-
E16243
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
A_F28
0
00
B_F9
AB_R12
U10245
DFF_TB67S
CLK
D
R
S
QQB
U10203
DFF_TB67S
CLK
D
R
S
QQB
32AB4
0
0
U32082
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_32001
IF(V(CW0, 0)>800m, V(32_BB, 0), V(32_B, 0))
0
BB_R5
U10238
DFF_TB67S
CLK
D
R
S
QQB
32B25
RST
0
IN+
IN-
OUT+
OUT-
E_16202
IF(V(CW0, 0)>800m, V(32AB27, 0), V(32A27, 0))
IN+
IN-
OUT+
OUT-
E16257
LIMIT(V(%IN+, %IN-), 0, 0.04)
RST
32AB31
U32180
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16232
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
E_16112
IF(V(CW0, 0)>800m, V(32BB11, 0), V(32B11, 0))
IN+
IN-
OUT+
OUT-
E16182
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E_16167
IF(V(CW0, 0)>800m, V(32A15, 0), V(32AB15, 0))
U32045
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16322
LIMIT(V(%IN+, %IN-), 0, 0.01)
IN+
IN-
OUT+
OUT-
E16314
LIMIT(V(%IN+, %IN-), 0, 0.05)
U32202
2AND_TB67S
CLK0
32BB18
B_F21
IN+
IN-
OUT+
OUT-
E16281
LIMIT(V(%IN+, %IN-), 0, 0.05)
32B26
32BB31
32B22
B_F8
32A8
C160
1nF
IN+
IN-
OUT+
OUT-
E16219
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
32_B
AB_F14
CLK0
0
0
A_F23
B_F10
U32181
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16183
LIMIT(V(%IN+, %IN-), 0, 0.02)
RST
0
0
BB_R29
IN+
IN-
OUT+
OUT-
E16233
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
0
B_R21
B_R23
IN+
IN-
OUT+
OUT-
ESUM189
V(AB_F21)+V(AB_F22)+V(AB_F23)+V(AB_F24)
RST
0
0
IN+
IN-
OUT+
OUT-
E16191
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
0
IN+
IN-
OUT+
OUT-
E16173
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E_16203
IF(V(CW0, 0)>800m, V(32AB19, 0), V(32A19, 0))
0
BB_R8
32B16
0
0
A_F22
IN+
IN-
OUT+
OUT-
E_16113
IF(V(CW0, 0)>800m, V(32BB12, 0), V(32B12, 0))
CLK0CLK0
RST
RST
0
U32203
2AND_TB67S
R152 1k
IN+
IN-
OUT+
OUT-
E_16136
IF(V(CW0, 0)>800m, V(32B14, 0), V(32BB14, 0))
IN+
IN-
OUT+
OUT-
E16282
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
32A31
A_F24
IN+
IN-
OUT+
OUT-
ESUM260
V(BB_F17)+V(BB_F18)+V(BB_F19)+V(BB_F20)
IN+
IN-
OUT+
OUT-
E16211
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
CLK0
00
IN+
IN-
OUT+
OUT-
E16234
LIMIT(V(%IN+, %IN-), 0, 0.03)
32B23
32B27
0
00
0
IN+
IN-
OUT+
OUT-
ESUM227
LIMIT(V(%IN+)+V(%IN-), 0, 1)
RST
0
00
IN+
IN-
OUT+
OUT-
E_16205
IF(V(CW0, 0)>800m, V(32AB16, 0), V(32A16, 0))
U32204
2AND_TB67S
C146
1nF
32B8
C176
1nF
32B24
0
B_R4
BB_R11
0 0
0
IN+
IN-
OUT+
OUT-
E_16137
IF(V(CW0, 0)>800m, V(32B13, 0), V(32BB13, 0))
CLK0
0
0
0
IN+
IN-
OUT+
OUT-
ESUM190
V(AB_R12)+V(AB_R13)+V(AB_R14)+V(AB_R15)
U10239
DFF_TB67S
CLK
D
R
S
QQB
RST
CLK0
IN+
IN-
OUT+
OUT-
E_16204
IF(V(CW0, 0)>800m, V(32AB21, 0), V(32A21, 0))
IN+
IN-
OUT+
OUT-
ESUM151
V(A_F9)+V(A_F10)+V(A_F11)+V(A_F12)
0
IN+
IN-
OUT+
OUT-
E16283
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
32B31
C155
1nF
C178
1nF
0
AB_R15
AB_F9
IN+
IN-
OUT+
OUT-
E16184
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
0
0
0
0
U32236
2AND_TB67S
0
0
0
0
U10184
DFF_TB67S
CLK
D
R
S
QQB
CLK0
RST
0
0
U32205
2AND_TB67S
A_F25
B_F11
IN+
IN-
OUT+
OUT-
E_16138
IF(V(CW0, 0)>800m, V(32B15, 0), V(32BB15, 0))
0
0
BB_R19
R153 1k
0
0
0
0
32AB11
IN+
IN-
OUT+
OUT-
E16149
LIMIT(V(%IN+, %IN-), 0, 0.04)
RST
0
0
32A18
IN+
IN-
OUT+
OUT-
E16220
LIMIT(V(%IN+, %IN-), 0, 0.05)
U10209
DFF_TB67S
CLK
D
R
S
QQB
CLK0
32AB25
0
U32206
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E_16168
IF(V(CW0, 0)>800m, V(32A9, 0), V(32AB9, 0))
IN+
IN-
OUT+
OUT-
E16264
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16212
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
B_R24
AB_F8
IN+
IN-
OUT+
OUT-
ESUM228
LIMIT(V(%IN+)+V(%IN-), 0, 1)
RST
0
0
0
CLK0
CLK0
0
0
IN+
IN-
OUT+
OUT-
E16185
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16301
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
0
A_F26
IN+
IN-
OUT+
OUT-
ESUM261
V(BB_R8)+V(BB_R9)+V(BB_R10)+V(BB_R11)
32AB26
RST
AB_F10
U10249
DFF_TB67S
CLK
D
R
S
QQB
32AB22
0
0
B_F12 IN+
IN-
OUT+
OUT-
E16315
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
0
U32207
2AND_TB67S
CLK0
RST
0
0
32BB11
IN+
IN-
OUT+
OUT-
ESUM192
V(AB_R16)+V(AB_R17)+V(AB_R18)+V(AB_R19)
0
0
0
0
0
0
0
0
C218
1nF
IN+
IN-
OUT+
OUT-
ESUM152
V(A_F13)+V(A_F14)+V(A_F15)+V(A_F16)
0
B_R22
C177
1nF
IN+
IN-
OUT+
OUT-
E16213
LIMIT(V(%IN+, %IN-), 0, 0.03)
U10210
DFF_TB67S
CLK
D
R
S
QQB
0
0
U32208
2AND_TB67S
0
0
U10140
DFF_TB67S
CLK
D
R
S
QQB
RST
0
0
0
0
32BB14
32BB13
0
B_R25
32AB0
U10250
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16323
LIMIT(V(%IN+, %IN-), 0, 0.03)
C209
1nF
0
0
IN+
IN-
OUT+
OUT-
E16144
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
B_F16
IN+
IN-
OUT+
OUT-
E16221
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E_16144
IF(V(CW0, 0)>800m, V(32B6, 0), V(32BB6, 0))
0
0
BB_R1
C147
1nF
U10240
DFF_TB67S
CLK
D
R
S
QQB
U32209
2AND_TB67S
0
A_F27
U10192
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16284
LIMIT(V(%IN+, %IN-), 0, 0.03)
32BB1
0
0
U10173
DFF_TB67S
CLK
D
R
S
QQB
32AB13
U10251
DFF_TB67S
CLK
D
R
S
QQB
CLK0
CLK0
0
0
32BB10
32AB27
0
0
U32210
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16265
LIMIT(V(%IN+, %IN-), 0, 0.02)
32BB15
0
0
0
U32237
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM229
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U10211
DFF_TB67S
CLK
D
R
S
QQB
0
0
0
IN+
IN-
OUT+
OUT-
E16186
LIMIT(V(%IN+, %IN-), 0, 0.02)
32A11
U32083
2AND_TB67S
0
0
0
32B18
IN+
IN-
OUT+
OUT-
E16192
LIMIT(V(%IN+, %IN-), 0, 0.05)
U32211
2AND_TB67S
32BB1332BB0
32AB23
00
0
AB_R20
U32212
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM193
V(AB_R20)+V(AB_R21)+V(AB_R22)+V(AB_R23)
32BB11
0
0
0
AB_R4
IN+
IN-
OUT+
OUT-
E16187
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
B_R26
U10174
DFF_TB67S
CLK
D
R
S
QQB
U10156
DFF_TB67S
CLK
D
R
S
QQB
RST
0
0
0
U10168
DFF_TB67S
CLK
D
R
S
QQB
32AB24
RST
IN+
IN-
OUT+
OUT-
E16222
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
ESUM153
LIMIT(V(%IN+)+V(%IN-), 0, 1)
IN+
IN-
OUT+
OUT-
E16316
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
32AB7
B_F17
IN+
IN-
OUT+
OUT-
E16150
LIMIT(V(%IN+, %IN-), 0, 0.03)
RST
0
U32129
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E_16206
IF(V(CW0, 0)>800m, V(32AB7, 0), V(32A7, 0))
U32213
2AND_TB67S
0
0
32AB4
AB_F11
CLK0
CLK0
0
0
B_F13
RST
32BB12
32BB4
CLK0
B_R18
IN+
IN-
OUT+
OUT-
ESUM262
V(BB_F21)+V(BB_F22)+V(BB_F23)+V(BB_F24)
IN+
IN-
OUT+
OUT-
E16101
LIMIT(V(%IN+, %IN-), 0, 0.05)
32BB732BB4
U10212
DFF_TB67S
CLK
D
R
S
QQB
0
0
32A13
32B11
U32214
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16223
LIMIT(V(%IN+, %IN-), 0, 0.04)
A_F7
U10175
DFF_TB67S
CLK
D
R
S
QQB
RST
00
0
C179
1nF
32A0
0
0
0
IN+
IN-
OUT+
OUT-
E16188
LIMIT(V(%IN+, %IN-), 0, 0.03)
C210
1nF
CLK0
0
32AB25
U32215
2AND_TB67S
U32130
2AND_TB67S
U32125
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16317
LIMIT(V(%IN+, %IN-), 0, 0.01)
0
0
A_F21
CLK0
0
IN+
IN-
OUT+
OUT-
E16235
LIMIT(V(%IN+, %IN-), 0, 0.02)
U32145
2AND_TB67S
RST
0
0
BB_R12
IN+
IN-
OUT+
OUT-
E16302
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
E16224
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
0
32A7
RST
RST
B_F29
B_R6
32A0
IN+
IN-
OUT+
OUT-
ESUM203
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
0
0
0
0
RST RST
0
32BB25
IN+
IN-
OUT+
OUT-
ESUM238
LIMIT(V(%IN+)+V(%IN-), 0, 1)
C238
1nF
0
0
CLK0
0
0
0
0
32B13
BB_F14
CLK0
CLK0
RST
0
32A4
IN+
IN-
OUT+
OUT-
ESUM230
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32031
2AND_TB67S
CLK0
IN+
IN-
OUT+
OUT-
E16274
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E16162
LIMIT(V(%IN+, %IN-), 0, 0.05)
AB_F12
IN+
IN-
OUT+
OUT-
ESUM140
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
0
32B7
0
0
0
0
0
IN+
IN-
OUT+
OUT-
ESUM263
V(BB_R12)+V(BB_R13)+V(BB_R14)+V(BB_R15)
RST
RST
CLK0
0
0
0
R154 1k
IN+
IN-
OUT+
OUT-
E16303
LIMIT(V(%IN+, %IN-), 0, 0.03)
RST
BB_R15
U10241
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM239
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32131
2AND_TB67S
0
U32146
2AND_TB67S
U10144
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16139
IF(V(CW0, 0)>800m, V(32B9, 0), V(32BB9, 0))
0
U32084
2AND_TB67S
RST
0
0
0
CLK0
0
0
0
32AB1
32A25
32A2
CLK0
RST
CLK0
0
0
32B4
IN+
IN-
OUT+
OUT-
E_16211
IF(V(CW0, 0)>800m, V(32AB14, 0), V(32A14, 0))
0
0
IN+
IN-
OUT+
OUT-
E_16161
IF(V(CW0, 0)>800m, V(32A8, 0), V(32AB8, 0))
CLK0
RST
0
0
C219
1nF
RST
0
0
U32132
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16104
LIMIT(V(%IN+, %IN-), 0, 0.05)
CLK0
0
32B0
U32147
2AND_TB67S
0
B_F18
IN+
IN-
OUT+
OUT-
E16324
LIMIT(V(%IN+, %IN-), 0, 0.04)
U10185
DFF_TB67S
CLK
D
R
S
QQB
CLK0
RST
CLK0
0
U10169
DFF_TB67S
CLK
D
R
S
QQB
A_R3
U10242
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16304
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
E16225
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
ESUM240
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
A_F16
IN+
IN-
OUT+
OUT-
ESUM231
LIMIT(V(%IN+)+V(%IN-), 0, 1)
CLK0
0
00
BB_F9
U32148
2AND_TB67S
C188
1nF
IN+
IN-
OUT+
OUT-
E16151
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
RST
32BB1
IN+
IN-
OUT+
OUT-
E16236
LIMIT(V(%IN+, %IN-), 0, 0.02)
RST
0
AB_R16
CLK0
0
IN+
IN-
OUT+
OUT-
E_16212
IF(V(CW0, 0)>800m, V(32AB13, 0), V(32A13, 0))
U32094
2AND_TB67S
0
0
00
32B25
CLK0
RST
0
U10170
DFF_TB67S
CLK
D
R
S
QQB
C136
1nF
0
0
32_BB
0
0
0
0
U32133
2AND_TB67S
C220
1nF
32BB25
CLK0
0
0
U10243
DFF_TB67S
CLK
D
R
S
QQB
U32149
2AND_TB67S
RST
0
A_F17
AB_F13
0
BB_F8
C180
1nF
IN+
IN-
OUT+
OUT-
ESUM141
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
U10171
DFF_TB67S
CLK
D
R
S
QQB
U10157
DFF_TB67S
CLK
D
R
S
QQB
U32126
2AND_TB67S
RST
0
0
U10186
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM241
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
BB_F10
IN+
IN-
OUT+
OUT-
E16202
LIMIT(V(%IN+, %IN-), 0, 0.01)
U32095
2AND_TB67S
CLK0
0
0
0
U32150
2AND_TB67S
RST
CLK0
U32134
2AND_TB67S
U10193
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16213
IF(V(CW0, 0)>800m, V(32AB15, 0), V(32A15, 0))
0
B_F19
0
0
0
IN+
IN-
OUT+
OUT-
E16230
LIMIT(V(%IN+, %IN-), 0, 0.05)
32BB26
0
0
0
0
0
32BB22
CLK0
0
0
0
A_F30
IN+
IN-
OUT+
OUT-
ESUM232
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32066
2AND_TB67S
U10158
DFF_TB67S
CLK
D
R
S
QQB
32_B
0
IN+
IN-
OUT+
OUT-
E16275
LIMIT(V(%IN+, %IN-), 0, 0.04)
R125 1k
A_F2
0
0
IN+
IN-
OUT+
OUT-
ESUM242
LIMIT(V(%IN+)+V(%IN-), 0, 1)
C239
1nF
RST
0
0
0
0
0
32A1
CLK0
0
AB_R27
U10244
DFF_TB67S
CLK
D
R
S
QQB
U10141
DFF_TB67S
CLK
D
R
S
QQB
RST
0
0
R156 1k
U10194
DFF_TB67S
CLK
D
R
S
QQB
U10187
DFF_TB67S
CLK
D
R
S
QQB
R155 1k
00
IN+
IN-
OUT+
OUT-
E_16219
IF(V(CW0, 0)>800m, V(32AB6, 0), V(32A6, 0))
0
0
00
0
32AB19
AB_R6
IN+
IN-
OUT+
OUT-
E16189
LIMIT(V(%IN+, %IN-), 0, 0.03)
U10159
DFF_TB67S
CLK
D
R
S
QQB
R124 1k
0
CLK0
0
0
R157 1k
IN+
IN-
OUT+
OUT-
E16318
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E16133
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
ESUM243
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32238
2AND_TB67S
0
U10142
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16276
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
E_32005
IF(V(CW0, 0)>800m, V(32_A, 0), V(32_AB, 0))
0
0
0
B_R17
A_F18
IN+
IN-
OUT+
OUT-
E16152
LIMIT(V(%IN+, %IN-), 0, 0.01)
U10213
DFF_TB67S
CLK
D
R
S
QQB
0
IN+
IN-
OUT+
OUT-
E_16145
IF(V(CW0, 0)>800m, V(32B31, 0), V(32BB31, 0))
IN+
IN-
OUT+
OUT-
E_16100
IF(V(CW0, 0)>800m, V(32BB2, 0), V(32B2, 0))
U10204
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E_16169
IF(V(CW0, 0)>800m, V(32A10, 0), V(32AB10, 0))
C211
1nF
0
0
32AB24
BB_R20
32BB19
0
0
0
B_F20
C221
1nF
U32096
2AND_TB67S
0
32B1
BB_F11
U32048
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16132
IF(V(CW0, 0)>800m, V(32B8, 0), V(32BB8, 0))
0
0
0
U32151
2AND_TB67S
32BB23
32BB27
0
0
0
C212
1nF
U10143
DFF_TB67S
CLK
D
R
S
QQB
RST
0
0
U10195
DFF_TB67S
CLK
D
R
S
QQB
32AB3
A_F1
U10214
DFF_TB67S
CLK
D
R
S
QQB
C222
1nF
U32097
2AND_TB67S
0
0
32BB24
BB_R4
CLK0
RST
0
0
IN+
IN-
OUT+
OUT-
E16277
LIMIT(V(%IN+, %IN-), 0, 0.05)
IN+
IN-
OUT+
OUT-
E_16170
IF(V(CW0, 0)>800m, V(32A11, 0), V(32AB11, 0))
IN+
IN-
OUT+
OUT-
E16203
LIMIT(V(%IN+, %IN-), 0, 0.01)
32BB24
0
0
A_F19
IN+
IN-
OUT+
OUT-
E16266
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
E16305
LIMIT(V(%IN+, %IN-), 0, 0.02)
U32049
2AND_TB67S
0
IN+
IN-
OUT+
OUT-
E16325
LIMIT(V(%IN+, %IN-), 0, 0.03)
CLK0
0
0
B_F28
U32070
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM194
V(AB_R24)+V(AB_R25)+V(AB_R26)+V(AB_R27)
0
0
1/32 step (H, H, H)
0
0
32A19
RST
0
0
A_F3
BB_F12
0
0
0
32A24
U10215
DFF_TB67S
CLK
D
R
S
QQB
0
0
0
IN+
IN-
OUT+
OUT-
E_16171
IF(V(CW0, 0)>800m, V(32A12, 0), V(32AB12, 0))
32BB232B2
0
U32067
2AND_TB67S
U32152
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16146
IF(V(CW0, 0)>800m, V(32B22, 0), V(32BB22, 0))
RST
0
0
CLK0
0
0
IN+
IN-
OUT+
OUT-
E16229
LIMIT(V(%IN+, %IN-), 0, 0.04)
C137
1nF
C213
1nF
0
0
U32085
2AND_TB67S
0
0
0
AB_F15
C189
1nF
U32071
2AND_TB67S
0
0
CLK0
0
0
0
0
C223
1nF
32A3
0
0
0
A_F20
IN+
IN-
OUT+
OUT-
E16267
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16288
LIMIT(V(%IN+, %IN-), 0, 0.05)
32_AB
0
IN+
IN-
OUT+
OUT-
ESUM204
V(B_F9)+V(B_F10)+V(B_F11)+V(B_F12)
U10216
DFF_TB67S
CLK
D
R
S
QQB
RST
0
U32064
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16147
IF(V(CW0, 0)>800m, V(32B23, 0), V(32BB23, 0))
U10145
DFF_TB67S
CLK
D
R
S
QQB
B_F30
32AB26
IN+
IN-
OUT+
OUT-
E_16214
IF(V(CW0, 0)>800m, V(32AB9, 0), V(32A9, 0))
IN+
IN-
OUT+
OUT-
E16299
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
IN+
IN-
OUT+
OUT-
E16268
LIMIT(V(%IN+, %IN-), 0, 0.03)
IN+
IN-
OUT+
OUT-
ESUM172
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32098
2AND_TB67S
32B24
IN+
IN-
OUT+
OUT-
ESUM142
V(A_F1)+V(A_F2)+V(A_F3)+V(A_F4)
0
0
BB_F30
B_F23
IN+
IN-
OUT+
OUT-
E16306
LIMIT(V(%IN+, %IN-), 0, 0.02)
0
0
0
0
0
00
IN+
IN-
OUT+
OUT-
E16278
LIMIT(V(%IN+, %IN-), 0, 0.05)
U32239
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_32003
IF(V(CW0, 0)>800m, V(32_B, 0), V(32_BB, 0))
0
0
0
U32003
2AND_TB67S
RST
IN+
IN-
OUT+
OUT-
E16153
LIMIT(V(%IN+, %IN-), 0, 0.02)
U32099
2AND_TB67S
0
CLK0
0
32BB26
U32065
2AND_TB67S
0
0
CLK0
IN+
IN-
OUT+
OUT-
ESUM205
V(B_F13)+V(B_F14)+V(B_F15)+V(B_F16)
IN+
IN-
OUT+
OUT-
E_16102
IF(V(CW0, 0)>800m, V(32BB4, 0), V(32B4, 0))
0
0
U10146
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
ESUM222
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
0
0
0
RST
CLK0
00
0
0
0
0
U32072
2AND_TB67S
IN+
IN-
OUT+
OUT-
ESUM195
V(AB_R28)+V(AB_R29)
RST
C190
1nF
IN+
IN-
OUT+
OUT-
E16163
LIMIT(V(%IN+, %IN-), 0, 0.05)
B_F22
32B19
32A26
IN+
IN-
OUT+
OUT-
E16326
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
BB_F13
IN+
IN-
OUT+
OUT-
E_16148
IF(V(CW0, 0)>800m, V(32B17, 0), V(32BB17, 0))
0
0
0
0
U32002
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16154
LIMIT(V(%IN+, %IN-), 0, 0.02)
IN+
IN-
OUT+
OUT-
E16237
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
0
0
0
0
AB_R23
IN+
IN-
OUT+
OUT-
E16200
LIMIT(V(%IN+, %IN-), 0, 0.01)
IN+
IN-
OUT+
OUT-
E16285
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
ESUM162
LIMIT(V(%IN+)+V(%IN-), 0, 1)
0
B_F24
B_F7
AB_R21
CLK0
0
0
0
BB_R16
U32221
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16226
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
0
0
RST
0
AB_R5
IN+
IN-
OUT+
OUT-
ESUM206
LIMIT(V(%IN+)+V(%IN-), 0, 1)
U32073
2AND_TB67S
32B0
RST
0
IN+
IN-
OUT+
OUT-
E_16149
IF(V(CW0, 0)>800m, V(32B18, 0), V(32BB18, 0))
U32182
2AND_TB67S
0
0
U10147
DFF_TB67S
CLK
D
R
S
QQB
IN+
IN-
OUT+
OUT-
E16286
LIMIT(V(%IN+, %IN-), 0, 0.04)
CLK0
IN+
IN-
OUT+
OUT-
E16238
LIMIT(V(%IN+, %IN-), 0, 0.02)
U32216
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16258
LIMIT(V(%IN+, %IN-), 0, 0.04)
0
0
0
0
32B26
U10205
DFF_TB67S
CLK
D
R
S
QQB
0
IN+
IN-
OUT+
OUT-
E16227
LIMIT(V(%IN+, %IN-), 0, 0.04)
IN+
IN-
OUT+
OUT-
ESUM143
V(A_F5)+V(A_F6)+V(A_F7)+V(A_F8)
RST
0
0
0
BB_R6
U32183
2AND_TB67S
0
0
0
C162
1nF
IN+
IN-
OUT+
OUT-
E16123
LIMIT(V(%IN+, %IN-), 0, 0.04)
U32100
2AND_TB67S
CLK0
IN+
IN-
OUT+
OUT-
E16239
LIMIT(V(%IN+, %IN-), 0, 0.03)
0
U32217
2AND_TB67S
C181
1nF
0
0
U32101
2AND_TB67S
IN+
IN-
OUT+
OUT-
E16193
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
0
32AB16
U32014
2AND_TB67S
CLK0
0
0
00
IN+
IN-
OUT+
OUT-
ESUM207
LIMIT(V(%IN+)+V(%IN-), 0, 1)
32A9
32A8
RST
0
0
0
0
BB_R27
IN+
IN-
OUT+
OUT-
E_16130
IF(V(CW0, 0)>800m, V(32B16, 0), V(32BB16, 0))
IN+
IN-
OUT+
OUT-
E16174
LIMIT(V(%IN+, %IN-), 0, 0.05)
0
0
0
0
U32218
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16150
IF(V(CW0, 0)>800m, V(32B20, 0), V(32BB20, 0))
C138
1nF
R168 1k
32A5
0
32A6
0
0
U32184
2AND_TB67S
IN+
IN-
OUT+
OUT-
E_16207
IF(V(CW0, 0)>800m, V(32AB8, 0), V(32A8, 0))
0
0
B_F25
B_R3
IN+
IN-
OUT+
OUT-
E16327
LIMIT(V(%IN+, %IN-), 0, 0.01)
U32074
2AND_TB67S
32BB3
U10206
DFF_TB67S
CLK
D
R
S
QQB
0
R136 1k
U32015
2AND_TB67S
RST
CLK0
- 10. UMD_LOGIC Block (Equivalent Circuit)
10Copyright (C) Siam Bee Technologies 2016
UMD_LOGIC
DMODE_TB67S
Sel_1_8
Sel_1_16
Dm0
Dm1
Dm2
Sel_1_32
Sel_Fst
Sel_Hst
Sel_Qst
Sel_Hst_a
Sel_Hst_b
Sel_Hst_a
Sel_Hst_b
UMD_1_8_2
3AND_TB67S
UMD_1_8_1
INV_TB67S
1/8 step (H, L, H)
Sel_1_8
UMD_FST
2NOR_TB67S
UMD_HST_A1
2NOR_TB67S
UMD_HST_A2
2AND_TB67S
UMD_1_16_2
3AND_TB67S
Sel_1_16
1/16 step (H, H, L)
UMD_HST_B1
2NOR_TB67S
UMD_HST_B2
2AND_TB67S
UMD_1_16_1
INV_TB67S
Dm0
Dm2
Dm1
UMD_1_32
3AND_TB67S
Sel_1_32
1/32 step (H, H, H)
Sel_Hst
Sel_Fst
UMD_HST
2OR_TB67S
Half step (a) (L, H, L)
Half step (b) (H, L, L)
Full step (L, L, L) - Standby
Full step (L, L, H)
UMD_QST2
3AND_TB67S
UMD_QST1
INV_TB67S
Sel_Qst
Quarter step (L, H, H)